Mitić, Vojislav V.

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Authority KeyName Variants
2611a781-6978-4fd3-aec1-d1504e639332
  • Mitić, Vojislav V. (102)
Projects
Directed synthesis, structure and properties of multifunctional materials Utilization of by-products and recycled waste materials in concrete composites in the scope of sustainable construction development in Serbia: investigation and environmental assessment of possible applications
Development of new information and communication technologies, based on advanced mathematical methods, with applications in medicine, telecommunications, power systems, protection of national heritage and education Development and application of multifunctional materials using domestic raw materials in upgraded processing lines
Investigation of the relation in triad: Synthesis structure-properties for functional materials Synthesis, processing and characterization of nanostructured materials for application in the field of energy, mechanical engineering, environmental protection and biomedicine
Osmotic dehydration of food - energy and ecological aspects of sustainable production Development, optimization and application of energy-harvesting sensors technology
Mechanochemistry treatment of low quality mineral raw materials Magmatism and geodynamics of the Balkan Peninsula from Mesozoic to present day: significance for the formation of metallic and non-metallic mineral deposits
Improvement of the monitoring system and the assessment of a long-term population exposure to pollutant substances in the environment using neural networks Implementation of new technical, technological and environmental solutions in the mining and metallurgical operations RBB and RBM
Development, realization, optimization and monitoring of a 5kWp grid-connected modular Sun-tracking photovoltaic system Development of technological processes for obtaining of ecological materials based on nonmetallic minerals
United States National Aeronautics and Space Administration (NASA), Grant NNX09AV07A United States National Science Foundation (NSF) / Centers of Research Excellence in Science and Technology (CREST), Grant HRD-0833184

Author's Bibliography

Entropy and fractal nature

Mitić, Vojislav V.; Lazović, Goran M.; Manojlović, Jelena Ž; Huang, Wen-Chieh; Stojiljković, Mladen M.; Facht, Hans; Vlahović, Branislav

(Belgrade : Vinča Institute of Nuclear Sciences, 2020)

TY  - JOUR
AU  - Mitić, Vojislav V.
AU  - Lazović, Goran M.
AU  - Manojlović, Jelena Ž
AU  - Huang, Wen-Chieh
AU  - Stojiljković, Mladen M.
AU  - Facht, Hans
AU  - Vlahović, Branislav
PY  - 2020
AB  - Existing, the biunivocal correspondents between the fractal nature and the nature discovered by fractals is the source and meeting point from those two aspects which are similar to the thermodynamically philosophical point of view. Sometimes we can begin from the end. We are substantial part of such fractals space nature. The mathematics fractal structures world have been inspired from nature and Euclidian geometry imagined shapes, and now it is coming back to nature serving it. All our analysis are based on several experimental results. The substance of the question regarding entropy and fractals could be analyzed on different ceramics and materials in general. We have reported the results based on consolidation BaTiO3- ceramics by the standard sintering technology, performed with BaTiO3 and different additives (MnCO3, CeO2, Bi2O3, Fe2O3, CaZrO3, Nb2O5, Er2O3, Yt2O3, Ho2O3). Thermodynamic principles are very important. Beside the energy and temperature, the entropy as a measure between the order and disorder (chaos) is very important parameter. In this paper, we establish the relation between the entropy and fractal that opens new frontiers with the goal to understand and establish the order-disorder relation.
PB  - Belgrade : Vinča Institute of Nuclear Sciences
T2  - Thermal Science
T1  - Entropy and fractal nature
SP  - 2203
EP  - 2212
VL  - 24
IS  - 3 Part B
DO  - 10.2298/TSCI191007451M
UR  - https://hdl.handle.net/21.15107/rcub_dais_8962
ER  - 
@article{
author = "Mitić, Vojislav V. and Lazović, Goran M. and Manojlović, Jelena Ž and Huang, Wen-Chieh and Stojiljković, Mladen M. and Facht, Hans and Vlahović, Branislav",
year = "2020",
abstract = "Existing, the biunivocal correspondents between the fractal nature and the nature discovered by fractals is the source and meeting point from those two aspects which are similar to the thermodynamically philosophical point of view. Sometimes we can begin from the end. We are substantial part of such fractals space nature. The mathematics fractal structures world have been inspired from nature and Euclidian geometry imagined shapes, and now it is coming back to nature serving it. All our analysis are based on several experimental results. The substance of the question regarding entropy and fractals could be analyzed on different ceramics and materials in general. We have reported the results based on consolidation BaTiO3- ceramics by the standard sintering technology, performed with BaTiO3 and different additives (MnCO3, CeO2, Bi2O3, Fe2O3, CaZrO3, Nb2O5, Er2O3, Yt2O3, Ho2O3). Thermodynamic principles are very important. Beside the energy and temperature, the entropy as a measure between the order and disorder (chaos) is very important parameter. In this paper, we establish the relation between the entropy and fractal that opens new frontiers with the goal to understand and establish the order-disorder relation.",
publisher = "Belgrade : Vinča Institute of Nuclear Sciences",
journal = "Thermal Science",
title = "Entropy and fractal nature",
pages = "2203-2212",
volume = "24",
number = "3 Part B",
doi = "10.2298/TSCI191007451M",
url = "https://hdl.handle.net/21.15107/rcub_dais_8962"
}
Mitić, V. V., Lazović, G. M., Manojlović, J. Ž., Huang, W., Stojiljković, M. M., Facht, H.,& Vlahović, B. (2020). Entropy and fractal nature.
Thermal Science
Belgrade : Vinča Institute of Nuclear Sciences., 24(3 Part B), 2203-2212.
https://doi.org/10.2298/TSCI191007451M
Mitić VV, Lazović GM, Manojlović JŽ, Huang W, Stojiljković MM, Facht H, Vlahović B. Entropy and fractal nature. Thermal Science. 2020;24(3 Part B):2203-2212.
doi:10.2298/TSCI191007451M.
Mitić Vojislav V., Lazović Goran M., Manojlović Jelena Ž, Huang Wen-Chieh, Stojiljković Mladen M., Facht Hans, Vlahović Branislav, "Entropy and fractal nature" Thermal Science, 24, no. 3 Part B (2020):2203-2212,
https://doi.org/10.2298/TSCI191007451M .
1

Niobium doping effect on BaTiO3 structure and dielectric properties

Paunović, Vesna; Mitić, Vojislav V.; Đorđević, M.; Prijić, Z.

(Elsevier, 2020)

TY  - JOUR
AU  - Paunović, Vesna
AU  - Mitić, Vojislav V.
AU  - Đorđević, M.
AU  - Prijić, Z.
PY  - 2020
AB  - The effect of Nb on the microstructure and dielectric properties of BaTiO3 ceramics was investigated. The Nb/Mn–BaTiO3 ceramics were prepared using a conventional solid-state method. The concentration of Nb varied from 0.1 to 5.0 at% but Mn was fixed at 0.05 at%. The SEM indicated that compositions of 0.1 and 0.5 at% Nb displayed a fairly uniform microstructure and homogeneous distribution of additives, with a grain size of less than 2 μm. In highly doped samples a wide range of microstructural features was observed, from homogeneous and completely fine-grained microstructure to the appearance of secondary abnormal grains with core-shell structure. The dielectric constant and the loss tangent of modified ceramics were measured as a function of temperature (20–180 °C) and frequency (100 Hz-1MHz) for different concentrations of additives. The obtained results have shown that the dielectric constant at, both, room temperature (εr) and Curie temperature (εrmax), decreased as the concentration of Nb5+ increased. Thus, the highest values for the dielectric constant at room temperature (εr = 6648) as well as at Curie temperature (εrmax = 7680) were measured for the 0.1Nb/Mn–BaTiO3 samples sintered at 1350 °C. The highly doped BaTiO3 ceramics were found to exhibit lower values of the dielectric constant and low dielectric losses at room temperature. In these samples, stable dielectric permittivity with a flat dielectric behavior over a wide temperature range is observed. The Curie constant for all series of samples decreases with an increase of dopant concentration and the highest values were measured from samples doped with 0.1 at% Nb. The effect of additives on the Curie constant change is more pronounced at higher sintering temperatures. The analysis of the critical nonlinearity exponent (γ = 1.07–1.27), for lower dopant concentrations, shows a sharp phase transformation. For samples with increased Nb content, the degree of nonlinearity γ is higher indicating a diffuse phase transformation.
PB  - Elsevier
T2  - Ceramics International
T1  - Niobium doping effect on BaTiO3 structure and dielectric properties
SP  - 8154
EP  - 8164
VL  - 46
IS  - 6
DO  - 10.1016/j.ceramint.2019.12.043
UR  - https://hdl.handle.net/21.15107/rcub_dais_8964
ER  - 
@article{
author = "Paunović, Vesna and Mitić, Vojislav V. and Đorđević, M. and Prijić, Z.",
year = "2020",
abstract = "The effect of Nb on the microstructure and dielectric properties of BaTiO3 ceramics was investigated. The Nb/Mn–BaTiO3 ceramics were prepared using a conventional solid-state method. The concentration of Nb varied from 0.1 to 5.0 at% but Mn was fixed at 0.05 at%. The SEM indicated that compositions of 0.1 and 0.5 at% Nb displayed a fairly uniform microstructure and homogeneous distribution of additives, with a grain size of less than 2 μm. In highly doped samples a wide range of microstructural features was observed, from homogeneous and completely fine-grained microstructure to the appearance of secondary abnormal grains with core-shell structure. The dielectric constant and the loss tangent of modified ceramics were measured as a function of temperature (20–180 °C) and frequency (100 Hz-1MHz) for different concentrations of additives. The obtained results have shown that the dielectric constant at, both, room temperature (εr) and Curie temperature (εrmax), decreased as the concentration of Nb5+ increased. Thus, the highest values for the dielectric constant at room temperature (εr = 6648) as well as at Curie temperature (εrmax = 7680) were measured for the 0.1Nb/Mn–BaTiO3 samples sintered at 1350 °C. The highly doped BaTiO3 ceramics were found to exhibit lower values of the dielectric constant and low dielectric losses at room temperature. In these samples, stable dielectric permittivity with a flat dielectric behavior over a wide temperature range is observed. The Curie constant for all series of samples decreases with an increase of dopant concentration and the highest values were measured from samples doped with 0.1 at% Nb. The effect of additives on the Curie constant change is more pronounced at higher sintering temperatures. The analysis of the critical nonlinearity exponent (γ = 1.07–1.27), for lower dopant concentrations, shows a sharp phase transformation. For samples with increased Nb content, the degree of nonlinearity γ is higher indicating a diffuse phase transformation.",
publisher = "Elsevier",
journal = "Ceramics International",
title = "Niobium doping effect on BaTiO3 structure and dielectric properties",
pages = "8154-8164",
volume = "46",
number = "6",
doi = "10.1016/j.ceramint.2019.12.043",
url = "https://hdl.handle.net/21.15107/rcub_dais_8964"
}
Paunović, V., Mitić, V. V., Đorđević, M.,& Prijić, Z. (2020). Niobium doping effect on BaTiO3 structure and dielectric properties.
Ceramics International
Elsevier., 46(6), 8154-8164.
https://doi.org/10.1016/j.ceramint.2019.12.043
Paunović V, Mitić VV, Đorđević M, Prijić Z. Niobium doping effect on BaTiO3 structure and dielectric properties. Ceramics International. 2020;46(6):8154-8164.
doi:10.1016/j.ceramint.2019.12.043.
Paunović Vesna, Mitić Vojislav V., Đorđević M., Prijić Z., "Niobium doping effect on BaTiO3 structure and dielectric properties" Ceramics International, 46, no. 6 (2020):8154-8164,
https://doi.org/10.1016/j.ceramint.2019.12.043 .
4
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Fractal frontiers in microelectronic ceramic materials

Mitić, Vojislav V.; Lazović, Goran; Paunović, Vesna; Cvetković, Nenad; Jovanović, Dejan; Veljković, Sandra; Ranđelović, Branislav; Vlahović, Branislav

(Elsevier, 2019)

TY  - JOUR
AU  - Mitić, Vojislav V.
AU  - Lazović, Goran
AU  - Paunović, Vesna
AU  - Cvetković, Nenad
AU  - Jovanović, Dejan
AU  - Veljković, Sandra
AU  - Ranđelović, Branislav
AU  - Vlahović, Branislav
PY  - 2019
AB  - The world's perennial need for energy and microelectronic miniaturization brings with it a broad set of technological and scientific challenges. Materials characterized by precise microstructural architectures based on fractal analysis and ranging in size down to nano scale represent an important avenue for finding novel solutions. Deep materials structure hierarchies of this type open new possibilities in capacity according to the Heywang model, especially when extended by a fractals approach and intergranular relationships supported and recognized by their fractal nature. These developments are opening new frontiers in microelectronics miniaturization. They build on early fractal applications that were used as tools in miniaturization research and also provided application perspectives for diverse energy technologies. In other words, fractals, as a crucial concept of modern theoretical-experimental physics and materials sciences, are tightly linked to higher integration processes and microelectronics miniaturization. They also hold potential for meeting the energy exploitation challenge. In this research context, for the first time we experimentally and theoretically investigated the electrostatic field between the grains within fractal nature aspects. It is essentially a theoretical experiment based on samples of experimental microstructures imaged with SEM, as previously published in a number of other papers. We now take the research a step further by consolidating the experimental samples with respect to the predicted distribution of grains and pores within the sample mass. We make an original contribution by opening the frame of scale sizes with respect to the technical processes of consolidation. This lets us predict the constitutive elements of the microstructures – approximately equidistant grains and pores. In this paper we define in a practical manner the final target elements for experimental consolidation of real samples. It is the main bridge between a designed microstructure and related characteristics – for example, fractal dimensions and final properties of next-generation fractal microelectronics.
PB  - Elsevier
T2  - Ceramics International
T1  - Fractal frontiers in microelectronic ceramic materials
SP  - 9679
EP  - 9685
VL  - 45
DO  - 10.1016/j.ceramint.2019.01.020
UR  - https://hdl.handle.net/21.15107/rcub_dais_5252
ER  - 
@article{
author = "Mitić, Vojislav V. and Lazović, Goran and Paunović, Vesna and Cvetković, Nenad and Jovanović, Dejan and Veljković, Sandra and Ranđelović, Branislav and Vlahović, Branislav",
year = "2019",
abstract = "The world's perennial need for energy and microelectronic miniaturization brings with it a broad set of technological and scientific challenges. Materials characterized by precise microstructural architectures based on fractal analysis and ranging in size down to nano scale represent an important avenue for finding novel solutions. Deep materials structure hierarchies of this type open new possibilities in capacity according to the Heywang model, especially when extended by a fractals approach and intergranular relationships supported and recognized by their fractal nature. These developments are opening new frontiers in microelectronics miniaturization. They build on early fractal applications that were used as tools in miniaturization research and also provided application perspectives for diverse energy technologies. In other words, fractals, as a crucial concept of modern theoretical-experimental physics and materials sciences, are tightly linked to higher integration processes and microelectronics miniaturization. They also hold potential for meeting the energy exploitation challenge. In this research context, for the first time we experimentally and theoretically investigated the electrostatic field between the grains within fractal nature aspects. It is essentially a theoretical experiment based on samples of experimental microstructures imaged with SEM, as previously published in a number of other papers. We now take the research a step further by consolidating the experimental samples with respect to the predicted distribution of grains and pores within the sample mass. We make an original contribution by opening the frame of scale sizes with respect to the technical processes of consolidation. This lets us predict the constitutive elements of the microstructures – approximately equidistant grains and pores. In this paper we define in a practical manner the final target elements for experimental consolidation of real samples. It is the main bridge between a designed microstructure and related characteristics – for example, fractal dimensions and final properties of next-generation fractal microelectronics.",
publisher = "Elsevier",
journal = "Ceramics International",
title = "Fractal frontiers in microelectronic ceramic materials",
pages = "9679-9685",
volume = "45",
doi = "10.1016/j.ceramint.2019.01.020",
url = "https://hdl.handle.net/21.15107/rcub_dais_5252"
}
Mitić, V. V., Lazović, G., Paunović, V., Cvetković, N., Jovanović, D., Veljković, S., Ranđelović, B.,& Vlahović, B. (2019). Fractal frontiers in microelectronic ceramic materials.
Ceramics International
Elsevier., 45, 9679-9685.
https://doi.org/10.1016/j.ceramint.2019.01.020
Mitić VV, Lazović G, Paunović V, Cvetković N, Jovanović D, Veljković S, Ranđelović B, Vlahović B. Fractal frontiers in microelectronic ceramic materials. Ceramics International. 2019;45:9679-9685.
doi:10.1016/j.ceramint.2019.01.020.
Mitić Vojislav V., Lazović Goran, Paunović Vesna, Cvetković Nenad, Jovanović Dejan, Veljković Sandra, Ranđelović Branislav, Vlahović Branislav, "Fractal frontiers in microelectronic ceramic materials" Ceramics International, 45 (2019):9679-9685,
https://doi.org/10.1016/j.ceramint.2019.01.020 .
9
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Fractal frontiers in microelectronic ceramic materials

Mitić, Vojislav V.; Lazović, Goran; Paunović, Vesna; Cvetković, Nenad; Jovanović, Dejan; Veljković, Sandra; Ranđelović, Branislav; Vlahović, Branislav

(Elsevier, 2019)

TY  - JOUR
AU  - Mitić, Vojislav V.
AU  - Lazović, Goran
AU  - Paunović, Vesna
AU  - Cvetković, Nenad
AU  - Jovanović, Dejan
AU  - Veljković, Sandra
AU  - Ranđelović, Branislav
AU  - Vlahović, Branislav
PY  - 2019
AB  - The world's perennial need for energy and microelectronic miniaturization brings with it a broad set of technological and scientific challenges. Materials characterized by precise microstructural architectures based on fractal analysis and ranging in size down to nano scale represent an important avenue for finding novel solutions. Deep materials structure hierarchies of this type open new possibilities in capacity according to the Heywang model, especially when extended by a fractals approach and intergranular relationships supported and recognized by their fractal nature. These developments are opening new frontiers in microelectronics miniaturization. They build on early fractal applications that were used as tools in miniaturization research and also provided application perspectives for diverse energy technologies. In other words, fractals, as a crucial concept of modern theoretical-experimental physics and materials sciences, are tightly linked to higher integration processes and microelectronics miniaturization. They also hold potential for meeting the energy exploitation challenge. In this research context, for the first time we experimentally and theoretically investigated the electrostatic field between the grains within fractal nature aspects. It is essentially a theoretical experiment based on samples of experimental microstructures imaged with SEM, as previously published in a number of other papers. We now take the research a step further by consolidating the experimental samples with respect to the predicted distribution of grains and pores within the sample mass. We make an original contribution by opening the frame of scale sizes with respect to the technical processes of consolidation. This lets us predict the constitutive elements of the microstructures – approximately equidistant grains and pores. In this paper we define in a practical manner the final target elements for experimental consolidation of real samples. It is the main bridge between a designed microstructure and related characteristics – for example, fractal dimensions and final properties of next-generation fractal microelectronics.
PB  - Elsevier
T2  - Ceramics International
T1  - Fractal frontiers in microelectronic ceramic materials
SP  - 9679
EP  - 9685
VL  - 45
DO  - 10.1016/j.ceramint.2019.01.020
UR  - https://hdl.handle.net/21.15107/rcub_dais_4795
ER  - 
@article{
author = "Mitić, Vojislav V. and Lazović, Goran and Paunović, Vesna and Cvetković, Nenad and Jovanović, Dejan and Veljković, Sandra and Ranđelović, Branislav and Vlahović, Branislav",
year = "2019",
abstract = "The world's perennial need for energy and microelectronic miniaturization brings with it a broad set of technological and scientific challenges. Materials characterized by precise microstructural architectures based on fractal analysis and ranging in size down to nano scale represent an important avenue for finding novel solutions. Deep materials structure hierarchies of this type open new possibilities in capacity according to the Heywang model, especially when extended by a fractals approach and intergranular relationships supported and recognized by their fractal nature. These developments are opening new frontiers in microelectronics miniaturization. They build on early fractal applications that were used as tools in miniaturization research and also provided application perspectives for diverse energy technologies. In other words, fractals, as a crucial concept of modern theoretical-experimental physics and materials sciences, are tightly linked to higher integration processes and microelectronics miniaturization. They also hold potential for meeting the energy exploitation challenge. In this research context, for the first time we experimentally and theoretically investigated the electrostatic field between the grains within fractal nature aspects. It is essentially a theoretical experiment based on samples of experimental microstructures imaged with SEM, as previously published in a number of other papers. We now take the research a step further by consolidating the experimental samples with respect to the predicted distribution of grains and pores within the sample mass. We make an original contribution by opening the frame of scale sizes with respect to the technical processes of consolidation. This lets us predict the constitutive elements of the microstructures – approximately equidistant grains and pores. In this paper we define in a practical manner the final target elements for experimental consolidation of real samples. It is the main bridge between a designed microstructure and related characteristics – for example, fractal dimensions and final properties of next-generation fractal microelectronics.",
publisher = "Elsevier",
journal = "Ceramics International",
title = "Fractal frontiers in microelectronic ceramic materials",
pages = "9679-9685",
volume = "45",
doi = "10.1016/j.ceramint.2019.01.020",
url = "https://hdl.handle.net/21.15107/rcub_dais_4795"
}
Mitić, V. V., Lazović, G., Paunović, V., Cvetković, N., Jovanović, D., Veljković, S., Ranđelović, B.,& Vlahović, B. (2019). Fractal frontiers in microelectronic ceramic materials.
Ceramics International
Elsevier., 45, 9679-9685.
https://doi.org/10.1016/j.ceramint.2019.01.020
Mitić VV, Lazović G, Paunović V, Cvetković N, Jovanović D, Veljković S, Ranđelović B, Vlahović B. Fractal frontiers in microelectronic ceramic materials. Ceramics International. 2019;45:9679-9685.
doi:10.1016/j.ceramint.2019.01.020.
Mitić Vojislav V., Lazović Goran, Paunović Vesna, Cvetković Nenad, Jovanović Dejan, Veljković Sandra, Ranđelović Branislav, Vlahović Branislav, "Fractal frontiers in microelectronic ceramic materials" Ceramics International, 45 (2019):9679-9685,
https://doi.org/10.1016/j.ceramint.2019.01.020 .
9
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Exploring fractality of microcrystalline diamond films

Mitić, Vojislav V.; Fecht, Hans-Jörg; Mohr, Marcus; Lazović, Goran; Kocić, Ljubiša

(American Institute of Physics, 2018)

TY  - JOUR
AU  - Mitić, Vojislav V.
AU  - Fecht,  Hans-Jörg
AU  - Mohr, Marcus
AU  - Lazović, Goran
AU  - Kocić, Ljubiša
PY  - 2018
AB  - Diamond is renowned as a material with superlative physical qualities, most of which originate from the strong covalent bonding between its atoms. The possibility to deposit polycrystalline diamond films via chemical vapor deposition (CVD) methods on large areas and on a large variety of substrates is posing numerous scientific challenges but also enables relevant industrial applications. Especially for small grain sizes, the grain’s misorientation and consequently the atomic structure of grain boundaries plays a significant role on transport properties and mechanical properties. Hence, the size and shape of the crystallites of poly- and nanocrystalline diamond films are one important key to optimize film properties for their specific applications. Fractal theory helps to find and define order in systems where disorder seems to prevail. Therefore, we apply fractal geometry analysis to characterize the grain morphology and surface topology of CVD grown diamond films. © 2018 Author(s).
PB  - American Institute of Physics
T2  - AIP Advances
T1  - Exploring fractality of microcrystalline diamond films
VL  - 8
IS  - 7
DO  - 10.1063/1.5034469
UR  - https://hdl.handle.net/21.15107/rcub_dais_3703
ER  - 
@article{
author = "Mitić, Vojislav V. and Fecht,  Hans-Jörg and Mohr, Marcus and Lazović, Goran and Kocić, Ljubiša",
year = "2018",
abstract = "Diamond is renowned as a material with superlative physical qualities, most of which originate from the strong covalent bonding between its atoms. The possibility to deposit polycrystalline diamond films via chemical vapor deposition (CVD) methods on large areas and on a large variety of substrates is posing numerous scientific challenges but also enables relevant industrial applications. Especially for small grain sizes, the grain’s misorientation and consequently the atomic structure of grain boundaries plays a significant role on transport properties and mechanical properties. Hence, the size and shape of the crystallites of poly- and nanocrystalline diamond films are one important key to optimize film properties for their specific applications. Fractal theory helps to find and define order in systems where disorder seems to prevail. Therefore, we apply fractal geometry analysis to characterize the grain morphology and surface topology of CVD grown diamond films. © 2018 Author(s).",
publisher = "American Institute of Physics",
journal = "AIP Advances",
title = "Exploring fractality of microcrystalline diamond films",
volume = "8",
number = "7",
doi = "10.1063/1.5034469",
url = "https://hdl.handle.net/21.15107/rcub_dais_3703"
}
Mitić, V. V., Fecht, H., Mohr, M., Lazović, G.,& Kocić, L. (2018). Exploring fractality of microcrystalline diamond films.
AIP Advances
American Institute of Physics., 8(7).
https://doi.org/10.1063/1.5034469
Mitić VV, Fecht H, Mohr M, Lazović G, Kocić L. Exploring fractality of microcrystalline diamond films. AIP Advances. 2018;8(7).
doi:10.1063/1.5034469.
Mitić Vojislav V., Fecht  Hans-Jörg, Mohr Marcus, Lazović Goran, Kocić Ljubiša, "Exploring fractality of microcrystalline diamond films" AIP Advances, 8, no. 7 (2018),
https://doi.org/10.1063/1.5034469 .
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Mineraloške i kristalografske osobine zeolitskog tufa heu-tipa lokaliteta novaković, Bosna i Hercegovina

Radosavljević-Mihajlović, Ana S.; Daković, Aleksandra S.; Kašić, Vladan; Mitić, Vojislav V.; Stojanović, Jovica N.; Sokić, Miroslav D.; Marković, Branislav R.

(Association of the Chemical Engineers of Serbia, 2018)

TY  - JOUR
AU  - Radosavljević-Mihajlović, Ana S.
AU  - Daković, Aleksandra S.
AU  - Kašić, Vladan
AU  - Mitić, Vojislav V.
AU  - Stojanović, Jovica N.
AU  - Sokić, Miroslav D.
AU  - Marković, Branislav R.
PY  - 2018
AB  - This paper presents mineralogical and crystallographic characterization of the zeolitic tuff from the Novakovic deposit, Republic of Bosnia and Herzegovina. The zeolitic tuff is of a whitish color composed of Ca-clinoptilolite and an amorphous phase (volcanic glass and amorphous SiO 2 ). The zeolitic tuff was analyzed by X-ray diffraction of the polycrystalline sample (XRPD), scanning electron microscopy and energy dispersive spectroscopy (SEM/EDS), and differential thermal and thermogravimetric (DTA/DTG) methods. According to the results obtained, it can be concluded that the studied zeolitic tuff is composed of Heu-type minerals. Based on the chemical analysis, thermal treatment and XRPD analysis it was determined that this is a mineral Ca-clinoptilolite. Thermal analysis in the temperature range from 300 up to 700°C showed that the examined zeolite minerals from the Novaković deposit are stable up to the temperature of 600°C. The crystal structure of Ca-clinoptilolite has been refined in the centrosymmetric space group C2/m (S.G. 12) with disordered distribution of Al and Si in the tetrahedral framework. The unit-cell parameters are as follows: a = 17.662 Å, b = 17.874 Å, c = 7.402 Å, β = 116.32° and V = 2122.73 Å 3 . The basic structural motif is represented by four channels. Three channels are composed of eight-membered rings, and one of ten-membered rings. The ten-membered (channel A) and one eight-membered channel (B) are parallel to the crystallographic axis c, and the other eight-membered channel is parallel to the a-axis. Ca-clinoptilolite comprises approximately 90 % of the studied zeolite tuff while the rest 10 % is the amorphous phase. The overall cation exchange capacity (CEC) amounts to 187 mmolM + / 100 g, and calcium represents the most abundant cation in the studied sample. The atomic ratios of Si/Al, Na + /(Na + +K + ), and Ca 2+ /(Ca 2+ +Mg 2+ ) are as follows: 4.36, 0.14, and 0.55, respectively. The zeolite tuff is both thermally and structurally stable and has applications in various areas of industry and agriculture. © 2018, Association of Chemists and Chemical Engineers of Serbia. All rights reserved.
PB  - Association of the Chemical Engineers of Serbia
T2  - Hemijska industrija
T1  - Mineraloške i kristalografske osobine zeolitskog tufa heu-tipa lokaliteta novaković, Bosna i Hercegovina
SP  - 371
EP  - 382
VL  - 72
IS  - 6
DO  - 10.2298/HEMIND180725026R
UR  - https://hdl.handle.net/21.15107/rcub_dais_5250
ER  - 
@article{
author = "Radosavljević-Mihajlović, Ana S. and Daković, Aleksandra S. and Kašić, Vladan and Mitić, Vojislav V. and Stojanović, Jovica N. and Sokić, Miroslav D. and Marković, Branislav R.",
year = "2018",
abstract = "This paper presents mineralogical and crystallographic characterization of the zeolitic tuff from the Novakovic deposit, Republic of Bosnia and Herzegovina. The zeolitic tuff is of a whitish color composed of Ca-clinoptilolite and an amorphous phase (volcanic glass and amorphous SiO 2 ). The zeolitic tuff was analyzed by X-ray diffraction of the polycrystalline sample (XRPD), scanning electron microscopy and energy dispersive spectroscopy (SEM/EDS), and differential thermal and thermogravimetric (DTA/DTG) methods. According to the results obtained, it can be concluded that the studied zeolitic tuff is composed of Heu-type minerals. Based on the chemical analysis, thermal treatment and XRPD analysis it was determined that this is a mineral Ca-clinoptilolite. Thermal analysis in the temperature range from 300 up to 700°C showed that the examined zeolite minerals from the Novaković deposit are stable up to the temperature of 600°C. The crystal structure of Ca-clinoptilolite has been refined in the centrosymmetric space group C2/m (S.G. 12) with disordered distribution of Al and Si in the tetrahedral framework. The unit-cell parameters are as follows: a = 17.662 Å, b = 17.874 Å, c = 7.402 Å, β = 116.32° and V = 2122.73 Å 3 . The basic structural motif is represented by four channels. Three channels are composed of eight-membered rings, and one of ten-membered rings. The ten-membered (channel A) and one eight-membered channel (B) are parallel to the crystallographic axis c, and the other eight-membered channel is parallel to the a-axis. Ca-clinoptilolite comprises approximately 90 % of the studied zeolite tuff while the rest 10 % is the amorphous phase. The overall cation exchange capacity (CEC) amounts to 187 mmolM + / 100 g, and calcium represents the most abundant cation in the studied sample. The atomic ratios of Si/Al, Na + /(Na + +K + ), and Ca 2+ /(Ca 2+ +Mg 2+ ) are as follows: 4.36, 0.14, and 0.55, respectively. The zeolite tuff is both thermally and structurally stable and has applications in various areas of industry and agriculture. © 2018, Association of Chemists and Chemical Engineers of Serbia. All rights reserved.",
publisher = "Association of the Chemical Engineers of Serbia",
journal = "Hemijska industrija",
title = "Mineraloške i kristalografske osobine zeolitskog tufa heu-tipa lokaliteta novaković, Bosna i Hercegovina",
pages = "371-382",
volume = "72",
number = "6",
doi = "10.2298/HEMIND180725026R",
url = "https://hdl.handle.net/21.15107/rcub_dais_5250"
}
Radosavljević-Mihajlović, A. S., Daković, A. S., Kašić, V., Mitić, V. V., Stojanović, J. N., Sokić, M. D.,& Marković, B. R. (2018). Mineraloške i kristalografske osobine zeolitskog tufa heu-tipa lokaliteta novaković, Bosna i Hercegovina.
Hemijska industrija
Association of the Chemical Engineers of Serbia., 72(6), 371-382.
https://doi.org/10.2298/HEMIND180725026R
Radosavljević-Mihajlović AS, Daković AS, Kašić V, Mitić VV, Stojanović JN, Sokić MD, Marković BR. Mineraloške i kristalografske osobine zeolitskog tufa heu-tipa lokaliteta novaković, Bosna i Hercegovina. Hemijska industrija. 2018;72(6):371-382.
doi:10.2298/HEMIND180725026R.
Radosavljević-Mihajlović Ana S., Daković Aleksandra S., Kašić Vladan, Mitić Vojislav V., Stojanović Jovica N., Sokić Miroslav D., Marković Branislav R., "Mineraloške i kristalografske osobine zeolitskog tufa heu-tipa lokaliteta novaković, Bosna i Hercegovina" Hemijska industrija, 72, no. 6 (2018):371-382,
https://doi.org/10.2298/HEMIND180725026R .

Meso-kinetics of one time relaxation electrical processes in BaTiO3 ceramics—modified Boltzmann-Poisson model

Vosika, Zoran B.; Mitić, Vojislav V.; Lazović, Goran; Paunović, Vesna; Kocić, Ljubiša

(Taylor & Francis, 2018)

TY  - JOUR
AU  - Vosika, Zoran B.
AU  - Mitić, Vojislav V.
AU  - Lazović, Goran
AU  - Paunović, Vesna
AU  - Kocić, Ljubiša
PY  - 2018
AB  - This paper is focused on the research an improved version of the Boltzmann-Poisson model for BaTiO3-ceramics. In the approximation of one relaxation time, for constant external electrical field, this approach included correct quadratic relation for varistor effect in the case of the Heywang model. Within meso-kinetics, quantum corrected Boltzmann-Poisson model, contains space-time correlations for the probability distribution density function f(r, k, t), lead to correct fractional relaxation velocity description. These new results corresponds to our other research based on electronic particles Brownian motion within its fractal nature.
PB  - Taylor & Francis
T2  - Ferroelectrics
T1  - Meso-kinetics of one time relaxation electrical processes in BaTiO3 ceramics—modified Boltzmann-Poisson model
SP  - 38
EP  - 50
VL  - 531
IS  - 1
DO  - 10.1080/00150193.2018.1456116
UR  - https://hdl.handle.net/21.15107/rcub_dais_4538
ER  - 
@article{
author = "Vosika, Zoran B. and Mitić, Vojislav V. and Lazović, Goran and Paunović, Vesna and Kocić, Ljubiša",
year = "2018",
abstract = "This paper is focused on the research an improved version of the Boltzmann-Poisson model for BaTiO3-ceramics. In the approximation of one relaxation time, for constant external electrical field, this approach included correct quadratic relation for varistor effect in the case of the Heywang model. Within meso-kinetics, quantum corrected Boltzmann-Poisson model, contains space-time correlations for the probability distribution density function f(r, k, t), lead to correct fractional relaxation velocity description. These new results corresponds to our other research based on electronic particles Brownian motion within its fractal nature.",
publisher = "Taylor & Francis",
journal = "Ferroelectrics",
title = "Meso-kinetics of one time relaxation electrical processes in BaTiO3 ceramics—modified Boltzmann-Poisson model",
pages = "38-50",
volume = "531",
number = "1",
doi = "10.1080/00150193.2018.1456116",
url = "https://hdl.handle.net/21.15107/rcub_dais_4538"
}
Vosika, Z. B., Mitić, V. V., Lazović, G., Paunović, V.,& Kocić, L. (2018). Meso-kinetics of one time relaxation electrical processes in BaTiO3 ceramics—modified Boltzmann-Poisson model.
Ferroelectrics
Taylor & Francis., 531(1), 38-50.
https://doi.org/10.1080/00150193.2018.1456116
Vosika ZB, Mitić VV, Lazović G, Paunović V, Kocić L. Meso-kinetics of one time relaxation electrical processes in BaTiO3 ceramics—modified Boltzmann-Poisson model. Ferroelectrics. 2018;531(1):38-50.
doi:10.1080/00150193.2018.1456116.
Vosika Zoran B., Mitić Vojislav V., Lazović Goran, Paunović Vesna, Kocić Ljubiša, "Meso-kinetics of one time relaxation electrical processes in BaTiO3 ceramics—modified Boltzmann-Poisson model" Ferroelectrics, 531, no. 1 (2018):38-50,
https://doi.org/10.1080/00150193.2018.1456116 .
2
2
2

Fractal nature Heywang model contribution and BaTiO3-ceramics semiconducting phenomena

Mitić, Vojislav V.; Lazović, Goran; Vosika, Zoran B.; Paunović, Vesna; Veljković, Sandra; Danković, Danijel; Vlahović, Branislav

(Belgrade : Serbian Ceramic Society, 2018)

TY  - CONF
AU  - Mitić, Vojislav V.
AU  - Lazović, Goran
AU  - Vosika, Zoran B.
AU  - Paunović, Vesna
AU  - Veljković, Sandra
AU  - Danković, Danijel
AU  - Vlahović, Branislav
PY  - 2018
AB  - Well known material with ferroelectric properties, BaTiO3-ceramics, have many advanced applications. Fractal approach in analyzing of these structures can be one of the solution for investigation of morphology. It is known that a wide range of disordered systems can be characterized by the fractal nature over a microscopic correlation length, and on a small scale the energy transformations are permitted. Due to the lack of energy, priorities of the future frontiers in ceramics science is to expand the knowledge even down to nano and towards new and alternative energy sources. Fractal configuration nature of BaTiO3 and other ceramics is based on phenomena that ceramic grains have fractal shape; there are pores and inter-granular space and there is particles Brownian fractal motion inside the material, during and after sintering, in the form of micro-particles flow, which is the most important. These important facts are in function of further developing of knowledge of energy harvesting and storage.
PB  - Belgrade : Serbian Ceramic Society
C3  - Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
T1  - Fractal nature Heywang model contribution and BaTiO3-ceramics semiconducting phenomena
SP  - 92
EP  - 93
UR  - https://hdl.handle.net/21.15107/rcub_dais_4088
ER  - 
@conference{
author = "Mitić, Vojislav V. and Lazović, Goran and Vosika, Zoran B. and Paunović, Vesna and Veljković, Sandra and Danković, Danijel and Vlahović, Branislav",
year = "2018",
abstract = "Well known material with ferroelectric properties, BaTiO3-ceramics, have many advanced applications. Fractal approach in analyzing of these structures can be one of the solution for investigation of morphology. It is known that a wide range of disordered systems can be characterized by the fractal nature over a microscopic correlation length, and on a small scale the energy transformations are permitted. Due to the lack of energy, priorities of the future frontiers in ceramics science is to expand the knowledge even down to nano and towards new and alternative energy sources. Fractal configuration nature of BaTiO3 and other ceramics is based on phenomena that ceramic grains have fractal shape; there are pores and inter-granular space and there is particles Brownian fractal motion inside the material, during and after sintering, in the form of micro-particles flow, which is the most important. These important facts are in function of further developing of knowledge of energy harvesting and storage.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018",
title = "Fractal nature Heywang model contribution and BaTiO3-ceramics semiconducting phenomena",
pages = "92-93",
url = "https://hdl.handle.net/21.15107/rcub_dais_4088"
}
Mitić, V. V., Lazović, G., Vosika, Z. B., Paunović, V., Veljković, S., Danković, D.,& Vlahović, B. (2018). Fractal nature Heywang model contribution and BaTiO3-ceramics semiconducting phenomena.
Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
Belgrade : Serbian Ceramic Society., 92-93.
Mitić VV, Lazović G, Vosika ZB, Paunović V, Veljković S, Danković D, Vlahović B. Fractal nature Heywang model contribution and BaTiO3-ceramics semiconducting phenomena. Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018. 2018;:92-93.
Mitić Vojislav V., Lazović Goran, Vosika Zoran B., Paunović Vesna, Veljković Sandra, Danković Danijel, Vlahović Branislav, "Fractal nature Heywang model contribution and BaTiO3-ceramics semiconducting phenomena" Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018 (2018):92-93

Forensic Science and Fractal Nature Analysis

Lazović, Goran; Mitić, Vojislav V.; Radosavljević Mihajlović, Ana; Simeunović, Dragan

(Belgrade : Serbian Ceramic Society, 2018)

TY  - CONF
AU  - Lazović, Goran
AU  - Mitić, Vojislav V.
AU  - Radosavljević Mihajlović, Ana
AU  - Simeunović, Dragan
PY  - 2018
AB  - The forensic photography, also referred to as crime scene photography, is an activity that records the initial appearance of the crime scene and physical evidence, in order to provide a permanent record for the court. Now a day, we can imagine the crime scene investigation without photography evidence. Crime or accident scene photographs can often be re-analysed in cold cases or when the images need to be enlarged to show critical details. Fractals are rough or fragmented geometric shape that can be subdivided in parts, each of which is a reduced copy of the whole Fractal dimension (FD) is an important fractal geometry feature. There are many applications in various fields including image processing, image analysis, texture segmentation, shape classification and identifying the image features such as roughness and smoothness of an image. The damage image can be reviewed, analyzed and reconstructed by fractals.
PB  - Belgrade : Serbian Ceramic Society
C3  - Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
T1  - Forensic Science and Fractal Nature Analysis
SP  - 52
EP  - 52
UR  - https://hdl.handle.net/21.15107/rcub_dais_4085
ER  - 
@conference{
author = "Lazović, Goran and Mitić, Vojislav V. and Radosavljević Mihajlović, Ana and Simeunović, Dragan",
year = "2018",
abstract = "The forensic photography, also referred to as crime scene photography, is an activity that records the initial appearance of the crime scene and physical evidence, in order to provide a permanent record for the court. Now a day, we can imagine the crime scene investigation without photography evidence. Crime or accident scene photographs can often be re-analysed in cold cases or when the images need to be enlarged to show critical details. Fractals are rough or fragmented geometric shape that can be subdivided in parts, each of which is a reduced copy of the whole Fractal dimension (FD) is an important fractal geometry feature. There are many applications in various fields including image processing, image analysis, texture segmentation, shape classification and identifying the image features such as roughness and smoothness of an image. The damage image can be reviewed, analyzed and reconstructed by fractals.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018",
title = "Forensic Science and Fractal Nature Analysis",
pages = "52-52",
url = "https://hdl.handle.net/21.15107/rcub_dais_4085"
}
Lazović, G., Mitić, V. V., Radosavljević Mihajlović, A.,& Simeunović, D. (2018). Forensic Science and Fractal Nature Analysis.
Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
Belgrade : Serbian Ceramic Society., 52-52.
Lazović G, Mitić VV, Radosavljević Mihajlović A, Simeunović D. Forensic Science and Fractal Nature Analysis. Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018. 2018;:52-52.
Lazović Goran, Mitić Vojislav V., Radosavljević Mihajlović Ana, Simeunović Dragan, "Forensic Science and Fractal Nature Analysis" Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018 (2018):52-52

The synthesized diamonds thermal conductivity and fractal nature

Veljković, Sandra; Mitić, Vojislav V.; Lazović, Goran; Mohr, Markus; Paunović, Vesna; Fecht, Hans-Jörg

(Belgrade : Serbian Ceramic Society, 2018)

TY  - CONF
AU  - Veljković, Sandra
AU  - Mitić, Vojislav V.
AU  - Lazović, Goran
AU  - Mohr, Markus
AU  - Paunović, Vesna
AU  - Fecht, Hans-Jörg
PY  - 2018
AB  - It is well known that diamonds are almost the best thermal conductors. This property as well as other convenient features, leaded to intensive research of synthesized diamonds production. Also, the investigation of the most valuable characteristics is the aim of permanently exploring. The thermal conductivity of synthesized diamonds research is very important, and because of that, the knowledge of the thermal conductivity properties is a basic point for completely understanding the synthesized diamonds phenomena. The experimental procedure confirmed interesting results regarding thermal conductivity. Investigation of the influence of different inputs on the synthesized diamonds process is of high importance. Due to the fact that the dimensions of the grain size have an impact on thermal conductivity, and that they are very small in deposited films of synthesized diamonds, the investigation of their fractal nature could lead to the further explanation of phenomena. The goal of this paper is basic analysis of what is the influence on thermal conductivity in the light of fractal nature materials properties.
PB  - Belgrade : Serbian Ceramic Society
C3  - Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
T1  - The synthesized diamonds thermal conductivity and fractal nature
SP  - 90
EP  - 90
UR  - https://hdl.handle.net/21.15107/rcub_dais_4101
ER  - 
@conference{
author = "Veljković, Sandra and Mitić, Vojislav V. and Lazović, Goran and Mohr, Markus and Paunović, Vesna and Fecht, Hans-Jörg",
year = "2018",
abstract = "It is well known that diamonds are almost the best thermal conductors. This property as well as other convenient features, leaded to intensive research of synthesized diamonds production. Also, the investigation of the most valuable characteristics is the aim of permanently exploring. The thermal conductivity of synthesized diamonds research is very important, and because of that, the knowledge of the thermal conductivity properties is a basic point for completely understanding the synthesized diamonds phenomena. The experimental procedure confirmed interesting results regarding thermal conductivity. Investigation of the influence of different inputs on the synthesized diamonds process is of high importance. Due to the fact that the dimensions of the grain size have an impact on thermal conductivity, and that they are very small in deposited films of synthesized diamonds, the investigation of their fractal nature could lead to the further explanation of phenomena. The goal of this paper is basic analysis of what is the influence on thermal conductivity in the light of fractal nature materials properties.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018",
title = "The synthesized diamonds thermal conductivity and fractal nature",
pages = "90-90",
url = "https://hdl.handle.net/21.15107/rcub_dais_4101"
}
Veljković, S., Mitić, V. V., Lazović, G., Mohr, M., Paunović, V.,& Fecht, H. (2018). The synthesized diamonds thermal conductivity and fractal nature.
Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
Belgrade : Serbian Ceramic Society., 90-90.
Veljković S, Mitić VV, Lazović G, Mohr M, Paunović V, Fecht H. The synthesized diamonds thermal conductivity and fractal nature. Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018. 2018;:90-90.
Veljković Sandra, Mitić Vojislav V., Lazović Goran, Mohr Markus, Paunović Vesna, Fecht Hans-Jörg, "The synthesized diamonds thermal conductivity and fractal nature" Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018 (2018):90-90

The consolidation process and microstructure analysis of synthesized diamonds within fractal nature analysis

Veljković, Sandra; Mitić, Vojislav V.; Lazović, Goran; Paunović, Vesna; Mohr, Markus; Fecht, Hans-Jörg

(Belgrade : Institute of Technical Sciences of SASA, 2018)

TY  - CONF
AU  - Veljković, Sandra
AU  - Mitić, Vojislav V.
AU  - Lazović, Goran
AU  - Paunović, Vesna
AU  - Mohr, Markus
AU  - Fecht, Hans-Jörg
PY  - 2018
AB  - The development of new technologies is very often based on improvement of novel materials and the features of the existing ones as well as their application. Considering that the synthetic diamonds are one of the most appealing areas of modern materials science and its modern applications, the research in this area is becoming more intensive. Therefore, in this paper, an overview of the basic properties of natural and synthesized diamonds is firstly presented followed by the method of forming and parameters that affect the final properties of polycrystalline diamonds. The first method which was used for obtaining synthesized diamonds was HPHT (high pressure high temperature) method, by which were produced diamonds very similar to the natural ones. However, CVD (chemical vapor deposition) method for obtaining polycrystalline diamond films was more promising. By applying this method microcrystalline diamond (MCD) with grain size larger than 100 nm were created. Considering that there were some disadvantages of MCD, new nanocrystalline (NCD) and ultra-nanocrystalline (UNCD) diamond materials were developed, which average size of grains were 5-100 nm as well as 3-5 nm. Depending on the consolidation process (composition and pressure of applied gases, filament setup and reactor geometry) the properties of polycrystalline diamonds can vary. Detailed analysis of these materials nature can be additionally obtained by application of the fractal analysis which is presented in this paper.
PB  - Belgrade : Institute of Technical Sciences of SASA
C3  - Program and the Book of Abstracts / Seventeenth Young Researchers' Conference Materials Sciences and Engineering, December 5-7, 2018, Belgrade, Serbia
T1  - The consolidation process and microstructure analysis of synthesized diamonds within fractal nature analysis
SP  - 58
EP  - 58
UR  - https://hdl.handle.net/21.15107/rcub_dais_4725
ER  - 
@conference{
author = "Veljković, Sandra and Mitić, Vojislav V. and Lazović, Goran and Paunović, Vesna and Mohr, Markus and Fecht, Hans-Jörg",
year = "2018",
abstract = "The development of new technologies is very often based on improvement of novel materials and the features of the existing ones as well as their application. Considering that the synthetic diamonds are one of the most appealing areas of modern materials science and its modern applications, the research in this area is becoming more intensive. Therefore, in this paper, an overview of the basic properties of natural and synthesized diamonds is firstly presented followed by the method of forming and parameters that affect the final properties of polycrystalline diamonds. The first method which was used for obtaining synthesized diamonds was HPHT (high pressure high temperature) method, by which were produced diamonds very similar to the natural ones. However, CVD (chemical vapor deposition) method for obtaining polycrystalline diamond films was more promising. By applying this method microcrystalline diamond (MCD) with grain size larger than 100 nm were created. Considering that there were some disadvantages of MCD, new nanocrystalline (NCD) and ultra-nanocrystalline (UNCD) diamond materials were developed, which average size of grains were 5-100 nm as well as 3-5 nm. Depending on the consolidation process (composition and pressure of applied gases, filament setup and reactor geometry) the properties of polycrystalline diamonds can vary. Detailed analysis of these materials nature can be additionally obtained by application of the fractal analysis which is presented in this paper.",
publisher = "Belgrade : Institute of Technical Sciences of SASA",
journal = "Program and the Book of Abstracts / Seventeenth Young Researchers' Conference Materials Sciences and Engineering, December 5-7, 2018, Belgrade, Serbia",
title = "The consolidation process and microstructure analysis of synthesized diamonds within fractal nature analysis",
pages = "58-58",
url = "https://hdl.handle.net/21.15107/rcub_dais_4725"
}
Veljković, S., Mitić, V. V., Lazović, G., Paunović, V., Mohr, M.,& Fecht, H. (2018). The consolidation process and microstructure analysis of synthesized diamonds within fractal nature analysis.
Program and the Book of Abstracts / Seventeenth Young Researchers' Conference Materials Sciences and Engineering, December 5-7, 2018, Belgrade, Serbia
Belgrade : Institute of Technical Sciences of SASA., 58-58.
Veljković S, Mitić VV, Lazović G, Paunović V, Mohr M, Fecht H. The consolidation process and microstructure analysis of synthesized diamonds within fractal nature analysis. Program and the Book of Abstracts / Seventeenth Young Researchers' Conference Materials Sciences and Engineering, December 5-7, 2018, Belgrade, Serbia. 2018;:58-58.
Veljković Sandra, Mitić Vojislav V., Lazović Goran, Paunović Vesna, Mohr Markus, Fecht Hans-Jörg, "The consolidation process and microstructure analysis of synthesized diamonds within fractal nature analysis" Program and the Book of Abstracts / Seventeenth Young Researchers' Conference Materials Sciences and Engineering, December 5-7, 2018, Belgrade, Serbia (2018):58-58

Structural characterization of Kalsilite

Radosavljević Mihajlović, Ana; Daković, A.; Šaponjić, A.; Mitić, Vojislav V.

(Belgrade : Serbian Ceramic Society, 2018)

TY  - CONF
AU  - Radosavljević Mihajlović, Ana
AU  - Daković, A.
AU  - Šaponjić, A.
AU  - Mitić, Vojislav V.
PY  - 2018
AB  - Thermally induced phase transformation of K-exchange LTA zeolite is followed in the range from room temperature to 1500 ºC. The frameworks collapse into amorphous intermediate products after heating between 600 and 650 °C. Prolonged heating of the intermediate product over 1100 °C results directly in formation a kalsilite [a= 8.1095 (4) Å, b =12.824 (4) Å, c =7.0674 (4) Å, β =115.89 °(3)]. The crystale phases of kalsilite in temperature range between 700 and 1500°C was investigated by X-ray powder analyses.
PB  - Belgrade : Serbian Ceramic Society
C3  - Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
T1  - Structural characterization of Kalsilite
SP  - 92
EP  - 92
UR  - https://hdl.handle.net/21.15107/rcub_dais_4087
ER  - 
@conference{
author = "Radosavljević Mihajlović, Ana and Daković, A. and Šaponjić, A. and Mitić, Vojislav V.",
year = "2018",
abstract = "Thermally induced phase transformation of K-exchange LTA zeolite is followed in the range from room temperature to 1500 ºC. The frameworks collapse into amorphous intermediate products after heating between 600 and 650 °C. Prolonged heating of the intermediate product over 1100 °C results directly in formation a kalsilite [a= 8.1095 (4) Å, b =12.824 (4) Å, c =7.0674 (4) Å, β =115.89 °(3)]. The crystale phases of kalsilite in temperature range between 700 and 1500°C was investigated by X-ray powder analyses.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018",
title = "Structural characterization of Kalsilite",
pages = "92-92",
url = "https://hdl.handle.net/21.15107/rcub_dais_4087"
}
Radosavljević Mihajlović, A., Daković, A., Šaponjić, A.,& Mitić, V. V. (2018). Structural characterization of Kalsilite.
Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
Belgrade : Serbian Ceramic Society., 92-92.
Radosavljević Mihajlović A, Daković A, Šaponjić A, Mitić VV. Structural characterization of Kalsilite. Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018. 2018;:92-92.
Radosavljević Mihajlović Ana, Daković A., Šaponjić A., Mitić Vojislav V., "Structural characterization of Kalsilite" Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018 (2018):92-92

One Review on Solid Oxide Fuel Cell Applications

Shaikh, Shabana P. S.; Adhi, K. P.; Mitić, Vojislav V.

(Belgrade : Serbian Ceramic Society, 2018)

TY  - CONF
AU  - Shaikh, Shabana P. S.
AU  - Adhi, K. P.
AU  - Mitić, Vojislav V.
PY  - 2018
AB  - The fuel cell is a highly efficient electrochemical clean energy conversion device that converts chemical energy into electrical energy by reacting gaseous fuel (H+) with oxidizing gas (O2-) though a solid ion conducting electrolyte with reduced greenhouse gas emission and reduced oil consumption. FC generates high alteration efficiencies as compared to the other available conventional combustion engine mechanical approaches. The working principle of batteries and fuel cell are analogues to each other for the production of electricity. Oxygen pass through the cathode and hydrogen or hydrocarbon fuels supply through the anode, and then the electrochemical reaction takes place at the electrode/electrolyte interface due to the active charge carrier passing through the electrolyte, thereby releasing the electrons into external circuit to generate electricity without pollution. There is no need to store energy as it is a continuous reforming process as long as both fuel and oxidant are provided in the fuel cell continuously. Thus, the main characteristic of a fuel cell is the production of highly efficient energy with negligible pollution. Thus, in the 21st century, energy technology such as fuel cell becomes a key determinant factor of economic development and is essential to raising the living standards in the form of the most influencing and challenging alternating source of generation of electricity.
PB  - Belgrade : Serbian Ceramic Society
C3  - Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
T1  - One Review on Solid Oxide Fuel Cell Applications
SP  - 93
EP  - 94
UR  - https://hdl.handle.net/21.15107/rcub_dais_4090
ER  - 
@conference{
author = "Shaikh, Shabana P. S. and Adhi, K. P. and Mitić, Vojislav V.",
year = "2018",
abstract = "The fuel cell is a highly efficient electrochemical clean energy conversion device that converts chemical energy into electrical energy by reacting gaseous fuel (H+) with oxidizing gas (O2-) though a solid ion conducting electrolyte with reduced greenhouse gas emission and reduced oil consumption. FC generates high alteration efficiencies as compared to the other available conventional combustion engine mechanical approaches. The working principle of batteries and fuel cell are analogues to each other for the production of electricity. Oxygen pass through the cathode and hydrogen or hydrocarbon fuels supply through the anode, and then the electrochemical reaction takes place at the electrode/electrolyte interface due to the active charge carrier passing through the electrolyte, thereby releasing the electrons into external circuit to generate electricity without pollution. There is no need to store energy as it is a continuous reforming process as long as both fuel and oxidant are provided in the fuel cell continuously. Thus, the main characteristic of a fuel cell is the production of highly efficient energy with negligible pollution. Thus, in the 21st century, energy technology such as fuel cell becomes a key determinant factor of economic development and is essential to raising the living standards in the form of the most influencing and challenging alternating source of generation of electricity.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018",
title = "One Review on Solid Oxide Fuel Cell Applications",
pages = "93-94",
url = "https://hdl.handle.net/21.15107/rcub_dais_4090"
}
Shaikh, S. P. S., Adhi, K. P.,& Mitić, V. V. (2018). One Review on Solid Oxide Fuel Cell Applications.
Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
Belgrade : Serbian Ceramic Society., 93-94.
Shaikh SPS, Adhi KP, Mitić VV. One Review on Solid Oxide Fuel Cell Applications. Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018. 2018;:93-94.
Shaikh Shabana P. S., Adhi K. P., Mitić Vojislav V., "One Review on Solid Oxide Fuel Cell Applications" Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018 (2018):93-94

Electrical conductivity and fractal nature analysis synthesized diamonds phenomena

Veljković, Sandra; Mitić, Vojislav V.; Lazović, Goran; Mohr, Markus; Paunović, Vesna; Fecht, Hans-Jörg

(Belgrade : Serbian Ceramic Society, 2018)

TY  - CONF
AU  - Veljković, Sandra
AU  - Mitić, Vojislav V.
AU  - Lazović, Goran
AU  - Mohr, Markus
AU  - Paunović, Vesna
AU  - Fecht, Hans-Jörg
PY  - 2018
AB  - Chemical Vapor Deposition – CVD can be used for creation of synthesized diamonds. The result of the process is the microstructure which is composed of numerous small grains. Such structure can be applied in various areas, like medicine, electronics, micromechanical systems, microelectromechanical systems – MEMS and many others. For these and many other applications, one of the most important feature is the electrical conductivity. Although the natural diamond is an excellent insulator, synthesized diamonds show different behavior. The exploring of this feature is a complex area with a strong convolution between grain size and sp2 bond ing effect. The optimization of the synthesized diamond properties requires the revealing of the size and the shape of the created crystallites. Due to the size of grains being significantly reduced, the fractal theory can help in analysis of the grain morphology and especially of electrical conductivity.
PB  - Belgrade : Serbian Ceramic Society
C3  - Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
T1  - Electrical conductivity and fractal nature analysis synthesized diamonds phenomena
SP  - 89
EP  - 90
UR  - https://hdl.handle.net/21.15107/rcub_dais_4102
ER  - 
@conference{
author = "Veljković, Sandra and Mitić, Vojislav V. and Lazović, Goran and Mohr, Markus and Paunović, Vesna and Fecht, Hans-Jörg",
year = "2018",
abstract = "Chemical Vapor Deposition – CVD can be used for creation of synthesized diamonds. The result of the process is the microstructure which is composed of numerous small grains. Such structure can be applied in various areas, like medicine, electronics, micromechanical systems, microelectromechanical systems – MEMS and many others. For these and many other applications, one of the most important feature is the electrical conductivity. Although the natural diamond is an excellent insulator, synthesized diamonds show different behavior. The exploring of this feature is a complex area with a strong convolution between grain size and sp2 bond ing effect. The optimization of the synthesized diamond properties requires the revealing of the size and the shape of the created crystallites. Due to the size of grains being significantly reduced, the fractal theory can help in analysis of the grain morphology and especially of electrical conductivity.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018",
title = "Electrical conductivity and fractal nature analysis synthesized diamonds phenomena",
pages = "89-90",
url = "https://hdl.handle.net/21.15107/rcub_dais_4102"
}
Veljković, S., Mitić, V. V., Lazović, G., Mohr, M., Paunović, V.,& Fecht, H. (2018). Electrical conductivity and fractal nature analysis synthesized diamonds phenomena.
Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
Belgrade : Serbian Ceramic Society., 89-90.
Veljković S, Mitić VV, Lazović G, Mohr M, Paunović V, Fecht H. Electrical conductivity and fractal nature analysis synthesized diamonds phenomena. Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018. 2018;:89-90.
Veljković Sandra, Mitić Vojislav V., Lazović Goran, Mohr Markus, Paunović Vesna, Fecht Hans-Jörg, "Electrical conductivity and fractal nature analysis synthesized diamonds phenomena" Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018 (2018):89-90

The synthesized diamonds microstructure consolidation review

Veljković, Sandra; Mitić, Vojislav V.; Mohr, Markus; Paunović, Vesna; Lazović, Goran; Fecht, Hans-Jörg

(Belgrade : Serbian Ceramic Society, 2018)

TY  - CONF
AU  - Veljković, Sandra
AU  - Mitić, Vojislav V.
AU  - Mohr, Markus
AU  - Paunović, Vesna
AU  - Lazović, Goran
AU  - Fecht, Hans-Jörg
PY  - 2018
AB  - Excellent mechanical, optical and thermal properties of diamonds are the advantages for which they are used in many areas and thus in the industrial as well. Considering that natural diamonds are rare and expensive, in order to overcome that, production of synthesized diamonds is a good solution. Hence, investigation of alternative producing methods led to discovery of commercially available chemical vapor deposition – CVD method. Using this method led to creation of microcrystalline diamond (MCD) with grain size larger than 100 nm. Because of some disadvantages of this synthesized diamond, new nanocrystalline (NCD) and ultra-nanocrystalline (UNCD) diamond materials were developed, with average size of grains ranging 5-100 nm and 3-5 nm, respectively. Reactor geometry, filament setup and gas phase conditions are also very important parameters for diamonds growth on silicon wafers, in addition to the mixture composition and pressure of applied gases. The goal of the paper is to present the relation of microstructure and diverse consolidation methods.
PB  - Belgrade : Serbian Ceramic Society
C3  - Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
T1  - The synthesized diamonds microstructure consolidation review
SP  - 89
EP  - 89
UR  - https://hdl.handle.net/21.15107/rcub_dais_4100
ER  - 
@conference{
author = "Veljković, Sandra and Mitić, Vojislav V. and Mohr, Markus and Paunović, Vesna and Lazović, Goran and Fecht, Hans-Jörg",
year = "2018",
abstract = "Excellent mechanical, optical and thermal properties of diamonds are the advantages for which they are used in many areas and thus in the industrial as well. Considering that natural diamonds are rare and expensive, in order to overcome that, production of synthesized diamonds is a good solution. Hence, investigation of alternative producing methods led to discovery of commercially available chemical vapor deposition – CVD method. Using this method led to creation of microcrystalline diamond (MCD) with grain size larger than 100 nm. Because of some disadvantages of this synthesized diamond, new nanocrystalline (NCD) and ultra-nanocrystalline (UNCD) diamond materials were developed, with average size of grains ranging 5-100 nm and 3-5 nm, respectively. Reactor geometry, filament setup and gas phase conditions are also very important parameters for diamonds growth on silicon wafers, in addition to the mixture composition and pressure of applied gases. The goal of the paper is to present the relation of microstructure and diverse consolidation methods.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018",
title = "The synthesized diamonds microstructure consolidation review",
pages = "89-89",
url = "https://hdl.handle.net/21.15107/rcub_dais_4100"
}
Veljković, S., Mitić, V. V., Mohr, M., Paunović, V., Lazović, G.,& Fecht, H. (2018). The synthesized diamonds microstructure consolidation review.
Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
Belgrade : Serbian Ceramic Society., 89-89.
Veljković S, Mitić VV, Mohr M, Paunović V, Lazović G, Fecht H. The synthesized diamonds microstructure consolidation review. Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018. 2018;:89-89.
Veljković Sandra, Mitić Vojislav V., Mohr Markus, Paunović Vesna, Lazović Goran, Fecht Hans-Jörg, "The synthesized diamonds microstructure consolidation review" Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018 (2018):89-89

Thermal and electrical conductivity relation phenomena within fractal nature synthesized diamonds frontiers

Mitić, Vojislav V.; Veljković, Sandra; Lazović, Goran; Mohr, Markus; Gluche, Peter; Paunović, Vesna; Fecht, Hans-Jörg

(Belgrade : Serbian Ceramic Society, 2018)

TY  - CONF
AU  - Mitić, Vojislav V.
AU  - Veljković, Sandra
AU  - Lazović, Goran
AU  - Mohr, Markus
AU  - Gluche, Peter
AU  - Paunović, Vesna
AU  - Fecht, Hans-Jörg
PY  - 2018
AB  - Many areas, like the most known jewelry, medical-surgery, in high professional industry, as well as producing micro components, there are many possibilities for application of synthesized diamonds. These and others specific application of polycrystal diamonds, require permanently research and improvement of their properties. Such exploring could be much better with understanding fundamentals of microstructures. In such investigation, fractal nature analysis could significantly contribute to the revealing of possibilities for improvements. By the experimental procedure, it is noticed that the influence of grain size on thermal and electrical conductivity have notable impact. Considering that, these conductivities affect the possibility of application in many areas, explaining on microstructural nature is of high importance. The influence of relation between the structures and final properties of synthetized diamonds can be achieved by explaining these phenomena based on fractal nature. The aim of the investigation is the establishing thermal and electrical conductivity relation phenomena within fractal nature synthesized diamonds frontiers.
PB  - Belgrade : Serbian Ceramic Society
C3  - Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
T1  - Thermal and electrical conductivity relation phenomena within fractal nature synthesized diamonds frontiers
SP  - 56
EP  - 57
UR  - https://hdl.handle.net/21.15107/rcub_dais_4120
ER  - 
@conference{
author = "Mitić, Vojislav V. and Veljković, Sandra and Lazović, Goran and Mohr, Markus and Gluche, Peter and Paunović, Vesna and Fecht, Hans-Jörg",
year = "2018",
abstract = "Many areas, like the most known jewelry, medical-surgery, in high professional industry, as well as producing micro components, there are many possibilities for application of synthesized diamonds. These and others specific application of polycrystal diamonds, require permanently research and improvement of their properties. Such exploring could be much better with understanding fundamentals of microstructures. In such investigation, fractal nature analysis could significantly contribute to the revealing of possibilities for improvements. By the experimental procedure, it is noticed that the influence of grain size on thermal and electrical conductivity have notable impact. Considering that, these conductivities affect the possibility of application in many areas, explaining on microstructural nature is of high importance. The influence of relation between the structures and final properties of synthetized diamonds can be achieved by explaining these phenomena based on fractal nature. The aim of the investigation is the establishing thermal and electrical conductivity relation phenomena within fractal nature synthesized diamonds frontiers.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018",
title = "Thermal and electrical conductivity relation phenomena within fractal nature synthesized diamonds frontiers",
pages = "56-57",
url = "https://hdl.handle.net/21.15107/rcub_dais_4120"
}
Mitić, V. V., Veljković, S., Lazović, G., Mohr, M., Gluche, P., Paunović, V.,& Fecht, H. (2018). Thermal and electrical conductivity relation phenomena within fractal nature synthesized diamonds frontiers.
Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
Belgrade : Serbian Ceramic Society., 56-57.
Mitić VV, Veljković S, Lazović G, Mohr M, Gluche P, Paunović V, Fecht H. Thermal and electrical conductivity relation phenomena within fractal nature synthesized diamonds frontiers. Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018. 2018;:56-57.
Mitić Vojislav V., Veljković Sandra, Lazović Goran, Mohr Markus, Gluche Peter, Paunović Vesna, Fecht Hans-Jörg, "Thermal and electrical conductivity relation phenomena within fractal nature synthesized diamonds frontiers" Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018 (2018):56-57

Forensic Fractal Nature Applications

Mitić, Vojislav V.; Lazović, Goran; Radosavljević Mihajlović, Ana; Mrdak, Gordana; Kaluđerović, Nenad; Nešić, Lazar; Đurđević, Dragan

(Belgrade : Serbian Ceramic Society, 2018)

TY  - CONF
AU  - Mitić, Vojislav V.
AU  - Lazović, Goran
AU  - Radosavljević Mihajlović, Ana
AU  - Mrdak, Gordana
AU  - Kaluđerović, Nenad
AU  - Nešić, Lazar
AU  - Đurđević, Dragan
PY  - 2018
AB  - Fractals are fragmented geometric shapes based on each or parts self-similarity. Fractal dimension (FD) is the most important characteristics in fractal nature analysis. There are many fractals applications including the forensic photography. The fractals image reconstruction is very important for modern forensic science. Here we demonstrate the very new original fractal applications in forensic sciences. This is a quite new application in crime investigations specifically in latent fingerprinting within biometric analysis. All of these open a new frontier in falsificates, financial and generally economic crime scene areas.
PB  - Belgrade : Serbian Ceramic Society
C3  - Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
T1  - Forensic Fractal Nature Applications
SP  - 93
EP  - 93
UR  - https://hdl.handle.net/21.15107/rcub_dais_4089
ER  - 
@conference{
author = "Mitić, Vojislav V. and Lazović, Goran and Radosavljević Mihajlović, Ana and Mrdak, Gordana and Kaluđerović, Nenad and Nešić, Lazar and Đurđević, Dragan",
year = "2018",
abstract = "Fractals are fragmented geometric shapes based on each or parts self-similarity. Fractal dimension (FD) is the most important characteristics in fractal nature analysis. There are many fractals applications including the forensic photography. The fractals image reconstruction is very important for modern forensic science. Here we demonstrate the very new original fractal applications in forensic sciences. This is a quite new application in crime investigations specifically in latent fingerprinting within biometric analysis. All of these open a new frontier in falsificates, financial and generally economic crime scene areas.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018",
title = "Forensic Fractal Nature Applications",
pages = "93-93",
url = "https://hdl.handle.net/21.15107/rcub_dais_4089"
}
Mitić, V. V., Lazović, G., Radosavljević Mihajlović, A., Mrdak, G., Kaluđerović, N., Nešić, L.,& Đurđević, D. (2018). Forensic Fractal Nature Applications.
Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
Belgrade : Serbian Ceramic Society., 93-93.
Mitić VV, Lazović G, Radosavljević Mihajlović A, Mrdak G, Kaluđerović N, Nešić L, Đurđević D. Forensic Fractal Nature Applications. Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018. 2018;:93-93.
Mitić Vojislav V., Lazović Goran, Radosavljević Mihajlović Ana, Mrdak Gordana, Kaluđerović Nenad, Nešić Lazar, Đurđević Dragan, "Forensic Fractal Nature Applications" Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018 (2018):93-93

Microstructure and EDS Characterization of Doped BaTiO3 Ceramics

Miljković, Miroslav; Paunović, Vesna; Mitić, Vojislav V.; Radosavljević Mihajlović, Ana; Veljković, Sandra

(Belgrade : Serbian Ceramic Society, 2018)

TY  - CONF
AU  - Miljković, Miroslav
AU  - Paunović, Vesna
AU  - Mitić, Vojislav V.
AU  - Radosavljević Mihajlović, Ana
AU  - Veljković, Sandra
PY  - 2018
AB  - The purpose of this paper is an investigation of the effects of various dopants (La, Nb, Sb) on the microstructure properties, phase composition and contact surface of BaTiO3 based ceramics. The doped BaTiO3-ceramics were prepared by conventional solid state procedure and sintered up to 1350oC for four hours. The concentration of additive were range from 0.1 to 5.0 at% of La, Nb or Sb. The grain size and microstructure characteristics for various samples and their phase composition was carried out using a scanning electron microscope SEM (JEOL-JSM 5300) equipped with EDS (QX 2000S) system. The homogeneous and completely fine-grained was observed in samples doped with low concentration of dopant (0.1 and 0.5 at %). EDS analysis of this samples did not reveal any dopant-rich regions, which indicated a uniform incorporation of dopants within the samples. In high doped samples, apart from the fine grained matrix, the appearance of local area with secondary abnormal grains was observed. The increase of dopant concentration leads to the appearance of dopant-rich regions between grains.
PB  - Belgrade : Serbian Ceramic Society
C3  - Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
T1  - Microstructure and EDS Characterization of Doped BaTiO3 Ceramics
SP  - 91
EP  - 91
UR  - https://hdl.handle.net/21.15107/rcub_dais_4086
ER  - 
@conference{
author = "Miljković, Miroslav and Paunović, Vesna and Mitić, Vojislav V. and Radosavljević Mihajlović, Ana and Veljković, Sandra",
year = "2018",
abstract = "The purpose of this paper is an investigation of the effects of various dopants (La, Nb, Sb) on the microstructure properties, phase composition and contact surface of BaTiO3 based ceramics. The doped BaTiO3-ceramics were prepared by conventional solid state procedure and sintered up to 1350oC for four hours. The concentration of additive were range from 0.1 to 5.0 at% of La, Nb or Sb. The grain size and microstructure characteristics for various samples and their phase composition was carried out using a scanning electron microscope SEM (JEOL-JSM 5300) equipped with EDS (QX 2000S) system. The homogeneous and completely fine-grained was observed in samples doped with low concentration of dopant (0.1 and 0.5 at %). EDS analysis of this samples did not reveal any dopant-rich regions, which indicated a uniform incorporation of dopants within the samples. In high doped samples, apart from the fine grained matrix, the appearance of local area with secondary abnormal grains was observed. The increase of dopant concentration leads to the appearance of dopant-rich regions between grains.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018",
title = "Microstructure and EDS Characterization of Doped BaTiO3 Ceramics",
pages = "91-91",
url = "https://hdl.handle.net/21.15107/rcub_dais_4086"
}
Miljković, M., Paunović, V., Mitić, V. V., Radosavljević Mihajlović, A.,& Veljković, S. (2018). Microstructure and EDS Characterization of Doped BaTiO3 Ceramics.
Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
Belgrade : Serbian Ceramic Society., 91-91.
Miljković M, Paunović V, Mitić VV, Radosavljević Mihajlović A, Veljković S. Microstructure and EDS Characterization of Doped BaTiO3 Ceramics. Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018. 2018;:91-91.
Miljković Miroslav, Paunović Vesna, Mitić Vojislav V., Radosavljević Mihajlović Ana, Veljković Sandra, "Microstructure and EDS Characterization of Doped BaTiO3 Ceramics" Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018 (2018):91-91

The alternative energy sources review

Nikolić, Miloš; Mitić, Vojislav V.

(Belgrade : Serbian Ceramic Society, 2018)

TY  - CONF
AU  - Nikolić, Miloš
AU  - Mitić, Vojislav V.
PY  - 2018
AB  - Renewable energy sources are energy sources that are derived from nature and can be renewed. Today, they are increasingly being used because of their harmlessness to the environment. Most renewable energy technologies are powered directly or indirectly from the Sun. The composition of the Earth’s atmosphere is balanced, so that the radiation into space is equal to the μmincoming solar radiation, which results in a certain energy degree within the Earth’s atmosphericcomposition, and we can roughly describe it as the Earth’s climate. Renewable energy is obtained from natural processes that are constantly renewed. In its various forms, it derives directly from the sun, or from heat generated deep within the Earth. It also includes electricity and heat generated from sources such as sunlight, wind, oceans, hydropower, biomass and geothermal energy, biofuels and hydrogen from renewable sources. Each of these sources has unique characteristics that influence how and where they can be used. Renewable energy sources include: solar energy, wind energy, biomass, biofuel, biogas, geothermal sources, energy of small watercourses, tidal energy, energy of the waves, internal energy of the sea and the ocean.
PB  - Belgrade : Serbian Ceramic Society
C3  - Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
T1  - The alternative energy sources review
SP  - 91
EP  - 92
UR  - https://hdl.handle.net/21.15107/rcub_dais_4093
ER  - 
@conference{
author = "Nikolić, Miloš and Mitić, Vojislav V.",
year = "2018",
abstract = "Renewable energy sources are energy sources that are derived from nature and can be renewed. Today, they are increasingly being used because of their harmlessness to the environment. Most renewable energy technologies are powered directly or indirectly from the Sun. The composition of the Earth’s atmosphere is balanced, so that the radiation into space is equal to the μmincoming solar radiation, which results in a certain energy degree within the Earth’s atmosphericcomposition, and we can roughly describe it as the Earth’s climate. Renewable energy is obtained from natural processes that are constantly renewed. In its various forms, it derives directly from the sun, or from heat generated deep within the Earth. It also includes electricity and heat generated from sources such as sunlight, wind, oceans, hydropower, biomass and geothermal energy, biofuels and hydrogen from renewable sources. Each of these sources has unique characteristics that influence how and where they can be used. Renewable energy sources include: solar energy, wind energy, biomass, biofuel, biogas, geothermal sources, energy of small watercourses, tidal energy, energy of the waves, internal energy of the sea and the ocean.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018",
title = "The alternative energy sources review",
pages = "91-92",
url = "https://hdl.handle.net/21.15107/rcub_dais_4093"
}
Nikolić, M.,& Mitić, V. V. (2018). The alternative energy sources review.
Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
Belgrade : Serbian Ceramic Society., 91-92.
Nikolić M, Mitić VV. The alternative energy sources review. Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018. 2018;:91-92.
Nikolić Miloš, Mitić Vojislav V., "The alternative energy sources review" Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018 (2018):91-92

The fractal nature approach in ceramics materials and discrete field simulation

Vučković, Vladan; Mitić, Vojislav V.; Kocić, Ljubiša; Nikolić, Vlastimir D.

(ETRAN, 2018)

TY  - JOUR
AU  - Vučković, Vladan
AU  - Mitić, Vojislav V.
AU  - Kocić, Ljubiša
AU  - Nikolić, Vlastimir D.
PY  - 2018
AB  - In this paper, we present experimental data of static fractals and compare the results with theoretical analysis obtained using dynamic particle simulation. The fractal simulator presented in this manuscript is pioneer work and it is the base of the future concrete and industrial applications. We have examined sintered ceramic samples formed using several different additives, as fabricated using various parameters, sintering temperature and time. SEM analyses were performed on samples as a part of the experimental characterization procedure. Based on microstructures, sets of points have been selected as a primary database input for the theoretical-experimental simulation to model the processes that describe the experiment. For all grain and pore analyses, the fractal nature is recognized as a matter of substantial influence on material characteristics. All of our experimental and theoretical-experimental procedures are based on the construct that reconstruction of the grain and pore fractal nature is of enormous importance for microstructure property prognoses. The method presented here can be used to simplify and simulate, in real time, the interaction of a few thousand electrically charged particles possessing different masses through formulations based on Maxwell’s electromagnetic equations. Particles in simulation interact with alternating (or static) electromagnetic fields and with static ceramics surface at the same time. All values are treated numerically. The fractal simulator consists of two components, a structure fractal generator, and field simulator. The functions for particle motion can be implemented and changed within the program in real time. The algorithm is written in the Delphi programming environment. The main result of this paper describes a quite new approach in the analysis of material microstructure properties towards programming-prognoses of the final properties of ceramic materials using the fractal nature within the fractal field simulator that generates structures, grains, and pores. The new simulator algorithm is developed as the important tool for the realization of the much ambitious project – simulation and realization of the Tesla’s Fountain in ceramics. The concrete results will follow with this project realization in near future. © 2016 Authors. Published by the International Institute for the Science of Sintering.
PB  - ETRAN
T2  - Science of Sintering
T1  - The fractal nature approach in ceramics materials and discrete field simulation
SP  - 371
EP  - 385
VL  - 50
IS  - 3
DO  - 10.2298/SOS1803371V
UR  - https://hdl.handle.net/21.15107/rcub_dais_5249
ER  - 
@article{
author = "Vučković, Vladan and Mitić, Vojislav V. and Kocić, Ljubiša and Nikolić, Vlastimir D.",
year = "2018",
abstract = "In this paper, we present experimental data of static fractals and compare the results with theoretical analysis obtained using dynamic particle simulation. The fractal simulator presented in this manuscript is pioneer work and it is the base of the future concrete and industrial applications. We have examined sintered ceramic samples formed using several different additives, as fabricated using various parameters, sintering temperature and time. SEM analyses were performed on samples as a part of the experimental characterization procedure. Based on microstructures, sets of points have been selected as a primary database input for the theoretical-experimental simulation to model the processes that describe the experiment. For all grain and pore analyses, the fractal nature is recognized as a matter of substantial influence on material characteristics. All of our experimental and theoretical-experimental procedures are based on the construct that reconstruction of the grain and pore fractal nature is of enormous importance for microstructure property prognoses. The method presented here can be used to simplify and simulate, in real time, the interaction of a few thousand electrically charged particles possessing different masses through formulations based on Maxwell’s electromagnetic equations. Particles in simulation interact with alternating (or static) electromagnetic fields and with static ceramics surface at the same time. All values are treated numerically. The fractal simulator consists of two components, a structure fractal generator, and field simulator. The functions for particle motion can be implemented and changed within the program in real time. The algorithm is written in the Delphi programming environment. The main result of this paper describes a quite new approach in the analysis of material microstructure properties towards programming-prognoses of the final properties of ceramic materials using the fractal nature within the fractal field simulator that generates structures, grains, and pores. The new simulator algorithm is developed as the important tool for the realization of the much ambitious project – simulation and realization of the Tesla’s Fountain in ceramics. The concrete results will follow with this project realization in near future. © 2016 Authors. Published by the International Institute for the Science of Sintering.",
publisher = "ETRAN",
journal = "Science of Sintering",
title = "The fractal nature approach in ceramics materials and discrete field simulation",
pages = "371-385",
volume = "50",
number = "3",
doi = "10.2298/SOS1803371V",
url = "https://hdl.handle.net/21.15107/rcub_dais_5249"
}
Vučković, V., Mitić, V. V., Kocić, L.,& Nikolić, V. D. (2018). The fractal nature approach in ceramics materials and discrete field simulation.
Science of Sintering
ETRAN., 50(3), 371-385.
https://doi.org/10.2298/SOS1803371V
Vučković V, Mitić VV, Kocić L, Nikolić VD. The fractal nature approach in ceramics materials and discrete field simulation. Science of Sintering. 2018;50(3):371-385.
doi:10.2298/SOS1803371V.
Vučković Vladan, Mitić Vojislav V., Kocić Ljubiša, Nikolić Vlastimir D., "The fractal nature approach in ceramics materials and discrete field simulation" Science of Sintering, 50, no. 3 (2018):371-385,
https://doi.org/10.2298/SOS1803371V .
3
4
3

Fractals applications on fractured archeological samples reconstruction

Mitić, Vojislav V.; Lazović, Goran; Topličić Ćurčić, Gordana; Momčilović, Ana; Đurić, Neđo

(Belgrade : Serbian Ceramic Society, 2018)

TY  - CONF
AU  - Mitić, Vojislav V.
AU  - Lazović, Goran
AU  - Topličić Ćurčić, Gordana
AU  - Momčilović, Ana
AU  - Đurić, Neđo
PY  - 2018
AB  - The civil engineering materials in the whole existing civilization have many characteristics which do not depend of past historical period, but, there is forever and everywhere fractal characteristic of structures morphology. Many archeological sources which are very rich with samples from prehistorical periods, ancient Greece, Roman and Vestian period, Slovenes and later, are existing in Balkan and South-East Europe. These sources and samples are very important for our civilization evaluation. Sometimes or even often, we fined archeological samples which are fractured and damaged. In such situation, it is very important to reconstruct some of these parts. We developed quite new method based on fractals analysis and characterization which is an excellent tool for reconstruction the archeological and heritage samples. In these paper, we successfully presented this application and opened new perspectives for research in this area.
PB  - Belgrade : Serbian Ceramic Society
C3  - Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
T1  - Fractals applications on fractured archeological samples reconstruction
SP  - 94
EP  - 94
UR  - https://hdl.handle.net/21.15107/rcub_dais_4091
ER  - 
@conference{
author = "Mitić, Vojislav V. and Lazović, Goran and Topličić Ćurčić, Gordana and Momčilović, Ana and Đurić, Neđo",
year = "2018",
abstract = "The civil engineering materials in the whole existing civilization have many characteristics which do not depend of past historical period, but, there is forever and everywhere fractal characteristic of structures morphology. Many archeological sources which are very rich with samples from prehistorical periods, ancient Greece, Roman and Vestian period, Slovenes and later, are existing in Balkan and South-East Europe. These sources and samples are very important for our civilization evaluation. Sometimes or even often, we fined archeological samples which are fractured and damaged. In such situation, it is very important to reconstruct some of these parts. We developed quite new method based on fractals analysis and characterization which is an excellent tool for reconstruction the archeological and heritage samples. In these paper, we successfully presented this application and opened new perspectives for research in this area.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018",
title = "Fractals applications on fractured archeological samples reconstruction",
pages = "94-94",
url = "https://hdl.handle.net/21.15107/rcub_dais_4091"
}
Mitić, V. V., Lazović, G., Topličić Ćurčić, G., Momčilović, A.,& Đurić, N. (2018). Fractals applications on fractured archeological samples reconstruction.
Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018
Belgrade : Serbian Ceramic Society., 94-94.
Mitić VV, Lazović G, Topličić Ćurčić G, Momčilović A, Đurić N. Fractals applications on fractured archeological samples reconstruction. Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018. 2018;:94-94.
Mitić Vojislav V., Lazović Goran, Topličić Ćurčić Gordana, Momčilović Ana, Đurić Neđo, "Fractals applications on fractured archeological samples reconstruction" Program and the Book of Abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application VII : New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 17-19 September 2018 (2018):94-94

Tesla's Fountain – Modeling and simulation in ceramics technology

Vučković, Vladan; Mitić, Vojislav V.; Kocić, Ljubiša; Arizanović, Boban; Paunović, Vesna; Nikolić, Ruža

(Elsevier, 2018)

TY  - JOUR
AU  - Vučković, Vladan
AU  - Mitić, Vojislav V.
AU  - Kocić, Ljubiša
AU  - Arizanović, Boban
AU  - Paunović, Vesna
AU  - Nikolić, Ruža
PY  - 2018
AB  - In this paper, we present Tesla's Fountain in ceramics technology reconstruction from basic 3D model, simulation of the engine, light and fluids till the real materialization. As the one of the most important model purposes, we enrich this solution by additional multicolor lights. All of this elements are designed based on Tesla's original patent no. 1,113,716, US patent office, granted Oct,13. In this model we applied ceramics technology based on ceramic materials casting and sintering. At the time when the patent was granted, the metal materials science and technologies were more advanced than the ceramics technology and applications. We performed all materials characteristics analyses and preparation steps based on the one author's patent no. 46121, Serbia patent office, granted 21.12.1991. This is one original two patents solution with complete new over-bridging by the state-of-the-art computer modeling and simulation technology. © 2018 Elsevier Ltd
PB  - Elsevier
T2  - Journal of the European Ceramic Society
T1  - Tesla's Fountain – Modeling and simulation in ceramics technology
SP  - 3049
EP  - 3056
VL  - 38
IS  - 8
DO  - 10.1016/j.jeurceramsoc.2018.01.041
UR  - https://hdl.handle.net/21.15107/rcub_dais_3702
ER  - 
@article{
author = "Vučković, Vladan and Mitić, Vojislav V. and Kocić, Ljubiša and Arizanović, Boban and Paunović, Vesna and Nikolić, Ruža",
year = "2018",
abstract = "In this paper, we present Tesla's Fountain in ceramics technology reconstruction from basic 3D model, simulation of the engine, light and fluids till the real materialization. As the one of the most important model purposes, we enrich this solution by additional multicolor lights. All of this elements are designed based on Tesla's original patent no. 1,113,716, US patent office, granted Oct,13. In this model we applied ceramics technology based on ceramic materials casting and sintering. At the time when the patent was granted, the metal materials science and technologies were more advanced than the ceramics technology and applications. We performed all materials characteristics analyses and preparation steps based on the one author's patent no. 46121, Serbia patent office, granted 21.12.1991. This is one original two patents solution with complete new over-bridging by the state-of-the-art computer modeling and simulation technology. © 2018 Elsevier Ltd",
publisher = "Elsevier",
journal = "Journal of the European Ceramic Society",
title = "Tesla's Fountain – Modeling and simulation in ceramics technology",
pages = "3049-3056",
volume = "38",
number = "8",
doi = "10.1016/j.jeurceramsoc.2018.01.041",
url = "https://hdl.handle.net/21.15107/rcub_dais_3702"
}
Vučković, V., Mitić, V. V., Kocić, L., Arizanović, B., Paunović, V.,& Nikolić, R. (2018). Tesla's Fountain – Modeling and simulation in ceramics technology.
Journal of the European Ceramic Society
Elsevier., 38(8), 3049-3056.
https://doi.org/10.1016/j.jeurceramsoc.2018.01.041
Vučković V, Mitić VV, Kocić L, Arizanović B, Paunović V, Nikolić R. Tesla's Fountain – Modeling and simulation in ceramics technology. Journal of the European Ceramic Society. 2018;38(8):3049-3056.
doi:10.1016/j.jeurceramsoc.2018.01.041.
Vučković Vladan, Mitić Vojislav V., Kocić Ljubiša, Arizanović Boban, Paunović Vesna, Nikolić Ruža, "Tesla's Fountain – Modeling and simulation in ceramics technology" Journal of the European Ceramic Society, 38, no. 8 (2018):3049-3056,
https://doi.org/10.1016/j.jeurceramsoc.2018.01.041 .
2
3
2

Fractal nature structure reconstruction method in designing microstructure properties

Mitić, Vojislav V.; Kocić, Ljubiša; Paunović, Vesna; Lazović, Goran; Miljković, Miroslav

(Elsevier, 2018)

TY  - JOUR
AU  - Mitić, Vojislav V.
AU  - Kocić, Ljubiša
AU  - Paunović, Vesna
AU  - Lazović, Goran
AU  - Miljković, Miroslav
PY  - 2018
AB  - In the process of predicting materials properties, it is necessary to predict microstructures. This is important for ceramic materials, for the purpose of miniaturization and for a higher level of integration. Although the method of material structure reconstruction is for the first time used on BaTiO3-ceramics by these authors, it can also be used for silicate, refractory and other ceramics, and, for any powder-based material. The reconstruction is based on the grain perimeter fractal analysis and the Richardson method. The main contribution of this paper is establishing the relationship between the electronic properties of BaTiO3-ceramics and its microstructural fractal nature. Similar relations can be used for any ceramics or even any materials. The samples consolidation includes both powder pressing (cold sintering phase) and sintering in a furnace (hot sintering phase). The fractal nature characterization has a very important role from the powder phase up to the final microstructure, through which structures it directly impacts electro-physical and other ceramics properties. Thereby, the new possibilities in the microstructure characterization applications are directly introduced to an engineering system, providing the new solutions related to computer aided support. This creates new industrial production and application possibilities, especially in the process of ceramics material consolidation, now based on microstructural properties, which is providing a basis for “fractal electronics’’ development. © 2018 Elsevier Ltd
PB  - Elsevier
T2  - Materials Research Bulletin
T1  - Fractal nature structure reconstruction method in designing microstructure properties
SP  - 175
EP  - 183
VL  - 101
DO  - 10.1016/j.materresbull.2018.01.019
UR  - https://hdl.handle.net/21.15107/rcub_dais_3741
ER  - 
@article{
author = "Mitić, Vojislav V. and Kocić, Ljubiša and Paunović, Vesna and Lazović, Goran and Miljković, Miroslav",
year = "2018",
abstract = "In the process of predicting materials properties, it is necessary to predict microstructures. This is important for ceramic materials, for the purpose of miniaturization and for a higher level of integration. Although the method of material structure reconstruction is for the first time used on BaTiO3-ceramics by these authors, it can also be used for silicate, refractory and other ceramics, and, for any powder-based material. The reconstruction is based on the grain perimeter fractal analysis and the Richardson method. The main contribution of this paper is establishing the relationship between the electronic properties of BaTiO3-ceramics and its microstructural fractal nature. Similar relations can be used for any ceramics or even any materials. The samples consolidation includes both powder pressing (cold sintering phase) and sintering in a furnace (hot sintering phase). The fractal nature characterization has a very important role from the powder phase up to the final microstructure, through which structures it directly impacts electro-physical and other ceramics properties. Thereby, the new possibilities in the microstructure characterization applications are directly introduced to an engineering system, providing the new solutions related to computer aided support. This creates new industrial production and application possibilities, especially in the process of ceramics material consolidation, now based on microstructural properties, which is providing a basis for “fractal electronics’’ development. © 2018 Elsevier Ltd",
publisher = "Elsevier",
journal = "Materials Research Bulletin",
title = "Fractal nature structure reconstruction method in designing microstructure properties",
pages = "175-183",
volume = "101",
doi = "10.1016/j.materresbull.2018.01.019",
url = "https://hdl.handle.net/21.15107/rcub_dais_3741"
}
Mitić, V. V., Kocić, L., Paunović, V., Lazović, G.,& Miljković, M. (2018). Fractal nature structure reconstruction method in designing microstructure properties.
Materials Research Bulletin
Elsevier., 101, 175-183.
https://doi.org/10.1016/j.materresbull.2018.01.019
Mitić VV, Kocić L, Paunović V, Lazović G, Miljković M. Fractal nature structure reconstruction method in designing microstructure properties. Materials Research Bulletin. 2018;101:175-183.
doi:10.1016/j.materresbull.2018.01.019.
Mitić Vojislav V., Kocić Ljubiša, Paunović Vesna, Lazović Goran, Miljković Miroslav, "Fractal nature structure reconstruction method in designing microstructure properties" Materials Research Bulletin, 101 (2018):175-183,
https://doi.org/10.1016/j.materresbull.2018.01.019 .
9
7
8

Clausius–Mossotti relation fractal modification

Mitić, Vojislav V.; Paunović, Vesna; Lazović, Goran; Kocić, Ljubi[a; Vlahović, Branislav

(Taylor and Francis Inc., 2018)

TY  - JOUR
AU  - Mitić, Vojislav V.
AU  - Paunović, Vesna
AU  - Lazović, Goran
AU  - Kocić, Ljubi[a
AU  - Vlahović, Branislav
PY  - 2018
AB  - The microstructure characteristic and dielectric properties of doped BaTiO 3 -ceramics were investigated in the light of the Clausius–Mossotti relation (CMR) which incorporates both the Curie and Curie–Weiss Laws. The samples of doped BaTiO 3 ceramics were prepared using conventional solid state procedure and sintered from 1290 °C to 1320 °C. Microstructural and compositional studies were performed by SEM equipped with EDS system. The Clausius–Mossotti relation is used to clarify the influence of dopant on the dielectric properties and BaTiO 3 phase transformation. Curie parameters (C, Tc) were calculated by using a Curie–Weiss law. Also, a new approach on correlation between microstructure and dielectric properties of doped BaTiO 3 based on fractal nature analysis (grains shapes, pores and intergranular contacts) have been developed, by using fractals in microstructure configurations reconstruction. This includes reconstruction of grain surface i.e. pore surface as tensor product of appropriate fractal curves. Particles chaotic motion trajectories is considered as Brownian motion which is then linearized in fractal manner. Fractality of grain surface, pore surface and particle motion introduce three fractal factors. Our hypothesis is that working temperature of BaTiO 3 -ceramics must be influenced by ceramics material fractality; these three fractality factors, appear as a correction of theoretic temperature appearing in Clausius–Mossotti relation i.e. Curie–Weiss law. © 2018, © 2018 Taylor & Francis Group, LLC.
PB  - Taylor and Francis Inc.
T2  - Ferroelectrics
T1  - Clausius–Mossotti relation fractal modification
SP  - 60
EP  - 76
VL  - 536
IS  - 1
DO  - 10.1080/00150193.2018.1528926
UR  - https://hdl.handle.net/21.15107/rcub_dais_5465
ER  - 
@article{
author = "Mitić, Vojislav V. and Paunović, Vesna and Lazović, Goran and Kocić, Ljubi[a and Vlahović, Branislav",
year = "2018",
abstract = "The microstructure characteristic and dielectric properties of doped BaTiO 3 -ceramics were investigated in the light of the Clausius–Mossotti relation (CMR) which incorporates both the Curie and Curie–Weiss Laws. The samples of doped BaTiO 3 ceramics were prepared using conventional solid state procedure and sintered from 1290 °C to 1320 °C. Microstructural and compositional studies were performed by SEM equipped with EDS system. The Clausius–Mossotti relation is used to clarify the influence of dopant on the dielectric properties and BaTiO 3 phase transformation. Curie parameters (C, Tc) were calculated by using a Curie–Weiss law. Also, a new approach on correlation between microstructure and dielectric properties of doped BaTiO 3 based on fractal nature analysis (grains shapes, pores and intergranular contacts) have been developed, by using fractals in microstructure configurations reconstruction. This includes reconstruction of grain surface i.e. pore surface as tensor product of appropriate fractal curves. Particles chaotic motion trajectories is considered as Brownian motion which is then linearized in fractal manner. Fractality of grain surface, pore surface and particle motion introduce three fractal factors. Our hypothesis is that working temperature of BaTiO 3 -ceramics must be influenced by ceramics material fractality; these three fractality factors, appear as a correction of theoretic temperature appearing in Clausius–Mossotti relation i.e. Curie–Weiss law. © 2018, © 2018 Taylor & Francis Group, LLC.",
publisher = "Taylor and Francis Inc.",
journal = "Ferroelectrics",
title = "Clausius–Mossotti relation fractal modification",
pages = "60-76",
volume = "536",
number = "1",
doi = "10.1080/00150193.2018.1528926",
url = "https://hdl.handle.net/21.15107/rcub_dais_5465"
}
Mitić, V. V., Paunović, V., Lazović, G., Kocić, L.,& Vlahović, B. (2018). Clausius–Mossotti relation fractal modification.
Ferroelectrics
Taylor and Francis Inc.., 536(1), 60-76.
https://doi.org/10.1080/00150193.2018.1528926
Mitić VV, Paunović V, Lazović G, Kocić L, Vlahović B. Clausius–Mossotti relation fractal modification. Ferroelectrics. 2018;536(1):60-76.
doi:10.1080/00150193.2018.1528926.
Mitić Vojislav V., Paunović Vesna, Lazović Goran, Kocić Ljubi[a, Vlahović Branislav, "Clausius–Mossotti relation fractal modification" Ferroelectrics, 536, no. 1 (2018):60-76,
https://doi.org/10.1080/00150193.2018.1528926 .
5
4
6

Tesla's Fountain – Modeling and simulation in ceramics technology

Vučković, Vladan; Mitić, Vojislav V.; Kocić, Ljubiša; Arizanović, Boban; Paunović, Vesna; Nikolić, Ruža

(Elsevier, 2018)

TY  - JOUR
AU  - Vučković, Vladan
AU  - Mitić, Vojislav V.
AU  - Kocić, Ljubiša
AU  - Arizanović, Boban
AU  - Paunović, Vesna
AU  - Nikolić, Ruža
PY  - 2018
AB  - In this paper, we present Tesla's Fountain in ceramics technology reconstruction from basic 3D model, simulation of the engine, light and fluids till the real materialization. As the one of the most important model purposes, we enrich this solution by additional multicolor lights. All of this elements are designed based on Tesla's original patent no. 1,113,716, US patent office, granted Oct,13. In this model we applied ceramics technology based on ceramic materials casting and sintering. At the time when the patent was granted, the metal materials science and technologies were more advanced than the ceramics technology and applications. We performed all materials characteristics analyses and preparation steps based on the one author's patent no. 46121, Serbia patent office, granted 21.12.1991. This is one original two patents solution with complete new over-bridging by the state-of-the-art computer modeling and simulation technology. © 2018 Elsevier Ltd
PB  - Elsevier
T2  - Journal of the European Ceramic Society
T1  - Tesla's Fountain – Modeling and simulation in ceramics technology
SP  - 3049
EP  - 3056
VL  - 38
IS  - 8
DO  - 10.1016/j.jeurceramsoc.2018.01.041
UR  - https://hdl.handle.net/21.15107/rcub_dais_4609
ER  - 
@article{
author = "Vučković, Vladan and Mitić, Vojislav V. and Kocić, Ljubiša and Arizanović, Boban and Paunović, Vesna and Nikolić, Ruža",
year = "2018",
abstract = "In this paper, we present Tesla's Fountain in ceramics technology reconstruction from basic 3D model, simulation of the engine, light and fluids till the real materialization. As the one of the most important model purposes, we enrich this solution by additional multicolor lights. All of this elements are designed based on Tesla's original patent no. 1,113,716, US patent office, granted Oct,13. In this model we applied ceramics technology based on ceramic materials casting and sintering. At the time when the patent was granted, the metal materials science and technologies were more advanced than the ceramics technology and applications. We performed all materials characteristics analyses and preparation steps based on the one author's patent no. 46121, Serbia patent office, granted 21.12.1991. This is one original two patents solution with complete new over-bridging by the state-of-the-art computer modeling and simulation technology. © 2018 Elsevier Ltd",
publisher = "Elsevier",
journal = "Journal of the European Ceramic Society",
title = "Tesla's Fountain – Modeling and simulation in ceramics technology",
pages = "3049-3056",
volume = "38",
number = "8",
doi = "10.1016/j.jeurceramsoc.2018.01.041",
url = "https://hdl.handle.net/21.15107/rcub_dais_4609"
}
Vučković, V., Mitić, V. V., Kocić, L., Arizanović, B., Paunović, V.,& Nikolić, R. (2018). Tesla's Fountain – Modeling and simulation in ceramics technology.
Journal of the European Ceramic Society
Elsevier., 38(8), 3049-3056.
https://doi.org/10.1016/j.jeurceramsoc.2018.01.041
Vučković V, Mitić VV, Kocić L, Arizanović B, Paunović V, Nikolić R. Tesla's Fountain – Modeling and simulation in ceramics technology. Journal of the European Ceramic Society. 2018;38(8):3049-3056.
doi:10.1016/j.jeurceramsoc.2018.01.041.
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