Powdery mixtures of 50 mass% Fe, 4 mass% Pb, 3 mass% Zr and 43 mass% BaTiO3 were mechanochemically activated via planetary ball mill for time periods spanning from 30 min to 300 min and subsequently sintered for 2 hours at 1200 °C in the dynamic atmosphere of air. Of all the samples, the one activated for 270 min exibited the most prominent piezoelectric effect of up to 1.17 mV under the applied pressure of 113 kPa with the relaxation time of 85 s. The pressure dependence of voltage showed three successive, distinct domains in which the voltage rise differed, with the rate of 0.09 mV/kPa in the initial one (ranging from 0.00 kPa to 5.66 kPa of the external pressure), 0.01 mV/kPa in the second one (from 5.66 kPa to 56.60 kPa) and ultimately the plateau occuring from approximately 60 kPa onwards. When heated to 200 °C, the same sample manifested the biggest pyroelectric effect as well, being 0.55 mV with no external field applied, as well as 1.04 mV when subjected to the homogenous magnetic field of 50 kA/m, thus yielding a 89% net increase of the incited voltage observed

Kalezić-Glišović, Aleksandra

Kesić, Željka

Lojpur, Vesna

Maričić, Aleksa

Obradović, Nina

Stojanović, Nemanja

Serbian Academy of Science and Arts Digital Archive (DAIS)

Serbian Ceramic Society ConferenceADVANCED CERAMICS AND APPLICATION XNew Frontiers in Multifunctional Material Science and ProcessingSerbian Ceramic SocietyInstitute of Technical Sciences of SASAInstitute for Testing of MaterialsInstitute of Chemistry Technology and MetalurgyInstitute for Technology of Nuclear and Other Raw Mineral MaterialsPROGRAM AND THE BOOK OF ABSTRACTSSerbian Academy of Sciences and Arts, Knez Mihailova 35Serbia, Belgrade, 26-27. September 2022.  Serbian Ceramic Society Conference ADVANCED CERAMICS AND APPLICATION X New Frontiers in Multifunctional Material Science and Processing                     Serbian Ceramic Society Institute of Technical Sciences of SASA  Institute for Testing of Materials Institute of Chemistry Technology and Metallurgy  Institute for Technology of Nuclear and Other Raw Mineral Materials  PROGRAM AND THE BOOK OF ABSTRACTS                           Serbian Academy of Sciences and Arts, Knez Mihailova 35             Serbia, Belgrade, 26-27th September 2022.  Book title: Serbian Ceramic Society Conference - ADVANCED CERAMICS AND APPLICATION X Program and the Book of Abstracts   Publisher: Serbian Ceramic Society  Editors: Dr. Nina Obradović Dr. Lidija Mančić  Technical Editors: Dr. Suzana Filipović Dr. Adriana Peleš Tadić Dr. Jelena Živojinović  Printing:  Serbian Ceramic Society, Belgrade, 2022.  Edition:  120 copies     CIP - Каталогизација у публикацији Народна библиотека Србије, Београд  666.3/.7(048) 66.017/.018(048)  SRPSKO keramičko društvo. Conference Advanced Ceramics and Application : New Frontiers in Multifunctional Material Science and Processing (10 ; 2022 ; Beograd)     Program ; and the Book of abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application X New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 26-27. September 2022. ; [editors Nina Obradović, Lidija Mančić]. - Belgrade : Serbian Ceramic Society, 2022 (Belgrade : Serbian Ceramic Society). - 96 str. : ilustr. ; 30 cm  Tiraž 120.  ISBN 978-86-915627-9-3  а) Керамика -- Апстракти б) Наука о материјалима -- Апстракти в) Наноматеријали -- Апстракти  COBISS.SR-ID 74827529        Conference Topics • Basic Ceramic Science & Sintering  • Nano-, Opto- & Bio-ceramics  • Modeling & Simulation  • Glass and Electro Ceramics • Electrochemistry & Catalysis   • Refractory, Cements & Clays  • Renewable Energy & Composites • Amorphous & Magnetic Ceramics  • Heritage, Art & Design     Conference Programme Chairs:                                  Conference Co-chairs:                                                                       Dr. Nina Obradović SRB                                                      Prof. Dr. Olivera Milošević SRB Dr. Lidija Mančić SRB                                                         Prof. Dr. Rainer Gadow GER                                                                                                                                                                                                                                                  Scientific Committee  Academician Antonije Đorđević Academician Zoran Popović Dr. Nina Obradović  Dr. Lidija Mančić  Prof. Dr. Rainer Gadow  Prof. Dr. Marcel Van de Voorde Prof. Dr. Wei Pan Prof. Dr. Reuben Jin-Ru Hwu Dr. Richard Todd Prof. Dr. Hans Fecht Prof. Dr. Olivera Milošević Prof. Dr. Vladimir Pavlović Prof. Dr. Bojan Marinković Dr. Takashi Goto Dr. Steven Tidrow Dr. Snežana Pašalić Prof. Dr. Zoran Nikolić Dr. Nebojša Romčević Dr. Zorica Lazarević  Dr. Aleksandra Milutinović–Nikolić Dr. Predrag Banković Dr. Zorica Mojović Dr. Nataša Jović Jovičić Prof. Dr. Branislav Vlahović Prof. Dr. Stevo Najman Prof. Dr. Vera Pavlović Dr. Nataša Đorđević Prof. Dr. Aleksandar Marinković Dr. Sanja Stojanović Prof. Dr. Nebojša Mitrović Dr. Suzana Filipović Dr. Darko Kosanović Dr. Dušan Božanić                          Organizing Committee  Dr. Nina Obradović  Dr. Lidija Mančić Academician Antonije Đorđević Dr. Smilja Marković  Dr. Ivana Dinić  Dr. Marina Vuković Dr. Suzana Filipović Dr. Anja Terzić Dr. Milica V. Vasić Dr. Maja Pagnacco Dr. Dalibor Marinković Prof. Dr. Nebojša Mitrović Prof. Dr. Vladimir Buljak Prof. Dr. Branislav Ranđelović Prof. Dr. Vesna Paunović  Prof. Dr. Vera Petrović Dr. Milica Marčeta Kaninski Dr. Darko Kosanović  Dr. Jelena Vujančević Dr. Jelena Živojinović Dr. Adriana Peleš Tadić Dr. Maria Čebela Dr. Vesna Lojpur Dr. Biljana Đorđević M. Sci. Isaak Trajković          The Tenth Serbian Ceramic Society Conference »Advanced Ceramics and Application« September 26-27, 2022 Serbian Academy of Sciences and Arts, Knez Mihailova 35, Belgrade, Serbia   91  P42 Piezoelectric And Pyroelectric Properties Of Fe/Pb/Zr-co-doped Barium Titanate Ceramics  Nemanja Stojanović1, Aleksandra Kalezić-Glišović1, Nina Obradović2, Vesna Lojpur3,  Željka Kesić4, Aleksa Maričić1  1Joint Laboratory for Advanced Materials of SASA, Section for Amorphous Materials, Faculty of Technical Sciences Čačak, University of Kragujevac, 32102 Čačak, Serbia 2Institute of Technical Sciences, Serbian Academy of Sciences and Arts, Knez Mihailova 35/IV, 11000 Belgrade, Serbia 3Department of Atomics Physics, Institute of Nuclear Sciences “VINČA”, National Institute of the Republic of Serbia, University of Belgrade, Mike Petrovića Alasa 12-14, 11351 Vinča, Belgrade, Serbia 4University of Belgrade, Faculty of Technology and Metallurgy, Karnegijeva 4, 11000 Belgrade, Serbia  Powdery mixtures of 50 mass% Fe, 4 mass% Pb, 3 mass% Zr and 43 mass% BaTiO3 were mechanochemically activated via planetary ball mill for time periods spanning from 30 min to 300 min and subsequently sintered for 2 hours at 1200 °C in the dynamic atmosphere of air. Of all the samples, the one activated for 270 min exibited the most prominent piezoelectric effect of up to 1.17 mV under the applied pressure of 113 kPa with the relaxation time of 85 s. The pressure dependence of voltage showed three successive, distinct domains in which the voltage rise differed, with the rate of 0.09 mV/kPa in the initial one (ranging from 0.00 kPa to 5.66 kPa of the external pressure), 0.01 mV/kPa in the second one (from 5.66 kPa to 56.60 kPa) and ultimately the plateau occuring from approximately 60 kPa onwards. When heated to 200 °C, the same sample manifested the biggest pyroelectric effect as well, being 0.55 mV with no external field applied, as well as 1.04 mV when subjected to the homogenous magnetic field of 50 kA/m, thus yielding a 89% net increase of the incited voltage observed.  P43 Development of thermoelastic transmission conditions across a thin interface  Shubhra Pande1,2,*, Andrea Piccolraoz1, Séverine Romero Baivier2  1University of Trento Via Mesiano, 77, 38123 Trento TN, Italy  2Vesuvius Group Rue de Douvrain 17, 7011 Ghlin, Belgium   Refractory devices composed of ceramics are employed wherever there is contact with molten metals as in crucibles filters, furnaces or systems for flow control. The mechanical properties of these materials are very different from metals. The presentation focuses on basic equations related to thermal and mechanical transmission conditions across an interface between two different materials. These equations are linked to the development of material instabilities and crack propagation within the ceramics, in the view of application to refractories operating at high-temperature conditions in steel plants.   

Piezoelectric And Pyroelectric Properties Of Fe/Pb/Zr-co-doped Barium Titanate Ceramics

Refractory devices composed of ceramics are employed wherever there is contact with molten metals as in crucibles filters, furnaces or systems for flow control. The mechanical properties of these materials are very different from metals. The presentation focuses on basic equations related to thermal and mechanical transmission conditions across an interface between two different materials. These equations are linked to the development of material instabilities and crack propagation within the ceramics, in the view of application to refractories operating at high-temperature conditions in steel plants.X Serbian Ceramic Society Conference - Advanced Ceramics and Application : new frontiers in multifunctional material science and processing : program and the book of abstracts; September 26-27, 2022; Belgrad

Repository of the Vinča Nuclear Institute (VinaR)

Serbian Ceramic Society ConferenceADVANCED CERAMICS AND APPLICATION XNew Frontiers in Multifunctional Material Science and ProcessingSerbian Ceramic SocietyInstitute of Technical Sciences of SASAInstitute for Testing of MaterialsInstitute of Chemistry Technology and MetalurgyInstitute for Technology of Nuclear and Other Raw Mineral MaterialsPROGRAM AND THE BOOK OF ABSTRACTSSerbian Academy of Sciences and Arts, Knez Mihailova 35Serbia, Belgrade, 26-27. September 2022.  Serbian Ceramic Society Conference ADVANCED CERAMICS AND APPLICATION X New Frontiers in Multifunctional Material Science and Processing                     Serbian Ceramic Society Institute of Technical Sciences of SASA  Institute for Testing of Materials Institute of Chemistry Technology and Metallurgy  Institute for Technology of Nuclear and Other Raw Mineral Materials  PROGRAM AND THE BOOK OF ABSTRACTS                           Serbian Academy of Sciences and Arts, Knez Mihailova 35             Serbia, Belgrade, 26-27th September 2022.  Book title: Serbian Ceramic Society Conference - ADVANCED CERAMICS AND APPLICATION X Program and the Book of Abstracts   Publisher: Serbian Ceramic Society  Editors: Dr. Nina Obradović Dr. Lidija Mančić  Technical Editors: Dr. Suzana Filipović Dr. Adriana Peleš Tadić Dr. Jelena Živojinović  Printing:  Serbian Ceramic Society, Belgrade, 2022.  Edition:  120 copies     CIP - Каталогизација у публикацији Народна библиотека Србије, Београд  666.3/.7(048) 66.017/.018(048)  SRPSKO keramičko društvo. Conference Advanced Ceramics and Application : New Frontiers in Multifunctional Material Science and Processing (10 ; 2022 ; Beograd)     Program ; and the Book of abstracts / Serbian Ceramic Society Conference Advanced Ceramics and Application X New Frontiers in Multifunctional Material Science and Processing, Serbia, Belgrade, 26-27. September 2022. ; [editors Nina Obradović, Lidija Mančić]. - Belgrade : Serbian Ceramic Society, 2022 (Belgrade : Serbian Ceramic Society). - 96 str. : ilustr. ; 30 cm  Tiraž 120.  ISBN 978-86-915627-9-3  а) Керамика -- Апстракти б) Наука о материјалима -- Апстракти в) Наноматеријали -- Апстракти  COBISS.SR-ID 74827529       The Tenth Serbian Ceramic Society Conference »Advanced Ceramics and Application« September 26-27, 2022 Serbian Academy of Sciences and Arts, Knez Mihailova 35, Belgrade, Serbia   91  P42 Piezoelectric And Pyroelectric Properties Of Fe/Pb/Zr-co-doped Barium Titanate Ceramics  Nemanja Stojanović1, Aleksandra Kalezić-Glišović1, Nina Obradović2, Vesna Lojpur3,  Željka Kesić4, Aleksa Maričić1  1Joint Laboratory for Advanced Materials of SASA, Section for Amorphous Materials, Faculty of Technical Sciences Čačak, University of Kragujevac, 32102 Čačak, Serbia 2Institute of Technical Sciences, Serbian Academy of Sciences and Arts, Knez Mihailova 35/IV, 11000 Belgrade, Serbia 3Department of Atomics Physics, Institute of Nuclear Sciences “VINČA”, National Institute of the Republic of Serbia, University of Belgrade, Mike Petrovića Alasa 12-14, 11351 Vinča, Belgrade, Serbia 4University of Belgrade, Faculty of Technology and Metallurgy, Karnegijeva 4, 11000 Belgrade, Serbia  Powdery mixtures of 50 mass% Fe, 4 mass% Pb, 3 mass% Zr and 43 mass% BaTiO3 were mechanochemically activated via planetary ball mill for time periods spanning from 30 min to 300 min and subsequently sintered for 2 hours at 1200 °C in the dynamic atmosphere of air. Of all the samples, the one activated for 270 min exibited the most prominent piezoelectric effect of up to 1.17 mV under the applied pressure of 113 kPa with the relaxation time of 85 s. The pressure dependence of voltage showed three successive, distinct domains in which the voltage rise differed, with the rate of 0.09 mV/kPa in the initial one (ranging from 0.00 kPa to 5.66 kPa of the external pressure), 0.01 mV/kPa in the second one (from 5.66 kPa to 56.60 kPa) and ultimately the plateau occuring from approximately 60 kPa onwards. When heated to 200 °C, the same sample manifested the biggest pyroelectric effect as well, being 0.55 mV with no external field applied, as well as 1.04 mV when subjected to the homogenous magnetic field of 50 kA/m, thus yielding a 89% net increase of the incited voltage observed.  P43 Development of thermoelastic transmission conditions across a thin interface  Shubhra Pande1,2,*, Andrea Piccolraoz1, Séverine Romero Baivier2  1University of Trento Via Mesiano, 77, 38123 Trento TN, Italy  2Vesuvius Group Rue de Douvrain 17, 7011 Ghlin, Belgium   Refractory devices composed of ceramics are employed wherever there is contact with molten metals as in crucibles filters, furnaces or systems for flow control. The mechanical properties of these materials are very different from metals. The presentation focuses on basic equations related to thermal and mechanical transmission conditions across an interface between two different materials. These equations are linked to the development of material instabilities and crack propagation within the ceramics, in the view of application to refractories operating at high-temperature conditions in steel plants.   

http://vinar.vin.bg.ac.rs/bitstream/id/28644/Book-of-Abstracts_P42.pdf

Piezoelectric And Pyroelectric Properties Of Fe/Pb/Zr-co-doped Barium Titanate Ceramics

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