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Online since: August 2017
Authors: Chen Yuan Chung
Horgan, Saint-Venant end effects in composites, Journal of Composite Materials. 16 (1982) 411-422
Dimitrievska et al , Novel carbon fiber composite for hip replacement with improved in vitro and in vivo osseointegration, Journal of Biomedical Materials Research Part A. 91A (2009) 37-51
Hacking et al, Tissue response to the components of a hydroxyapatite-coated composite femoral implant, Journal of Biomedical Materials Research Part A. 94A (2010) 953-960
Benveniste, A new approach to the application of Mori-Tanaka’s theory in composite materials, Mechanics of Materials. 6 (1987) 147-157
Tjong, Structural and mechanical properties of polymer nanocomposites, Materials Science and Engineering: R: Reports. 53 (2006) 73-197.
Dimitrievska et al , Novel carbon fiber composite for hip replacement with improved in vitro and in vivo osseointegration, Journal of Biomedical Materials Research Part A. 91A (2009) 37-51
Hacking et al, Tissue response to the components of a hydroxyapatite-coated composite femoral implant, Journal of Biomedical Materials Research Part A. 94A (2010) 953-960
Benveniste, A new approach to the application of Mori-Tanaka’s theory in composite materials, Mechanics of Materials. 6 (1987) 147-157
Tjong, Structural and mechanical properties of polymer nanocomposites, Materials Science and Engineering: R: Reports. 53 (2006) 73-197.
Online since: January 2024
Authors: Sylvia Ayu Pradanawati, Irfani Faiq Erlangga, Nur Laila Hamidah, Azzah Dyah Pramata
Materials and Methods
A.Experiment
The manufacture of SPE in this study was carried out by the solution casting method [2,4], Fly ash was added as a filler referring to the journal in the manufacture of electrolyte polymers which made the ionic conductivity of the spe more better [1,2].
Materials Characterization And Electrochemical Test The synthesized SPE samples were then characterized using an X-ray diffractometer (XRD).
Malaysian Journal of Fundamental and Applied Sciences, 14(4), 443-447
Materials Today: Proceedings, 5(13), 26405-26410
Journal of colloid and interface science, 554, 142-156
Materials Characterization And Electrochemical Test The synthesized SPE samples were then characterized using an X-ray diffractometer (XRD).
Malaysian Journal of Fundamental and Applied Sciences, 14(4), 443-447
Materials Today: Proceedings, 5(13), 26405-26410
Journal of colloid and interface science, 554, 142-156
Online since: November 2014
Authors: Marta Mikuśkiewicz, Grzegorz Moskal, Michał Stopyra
Feedstock materials were submicrocrystalline powders of dysprosia Dy2O3 and zirconia ZrO2.
The obtained results showed that these materials are very attractive for the top ceramic materials for thermal barrier systems [8-13].
Acknowledgments This work was supported by Institute of Materials Science of Silesian University of Technology, as a part of Statutory Research no BK232/RM3/2014.
[13] Maloney M.J., Thermal barrier coating systems and materials.
[15] Cao X., Ma Z., Liu Y., Du Z., Zheng K., Rare Metal Materials and Engineering 42 (2013) 1134
The obtained results showed that these materials are very attractive for the top ceramic materials for thermal barrier systems [8-13].
Acknowledgments This work was supported by Institute of Materials Science of Silesian University of Technology, as a part of Statutory Research no BK232/RM3/2014.
[13] Maloney M.J., Thermal barrier coating systems and materials.
[15] Cao X., Ma Z., Liu Y., Du Z., Zheng K., Rare Metal Materials and Engineering 42 (2013) 1134
Online since: May 2014
Authors: Arnold Rónaföldi, Jenő Kovács, Mária Svéda, András Roósz, Anna Sycheva
The unidirectional solidification experiments were carried out on the Crystallizer with High Rotating Magnetic Field (CHRMF) equipment developed by the MTA-ME Materials Science Research Group [10].
Müller: Numerical study on directional solidification of AlSi alloys with rotating magnetic fields under microgravity conditions, Journal of Materials Science, 39, (2004) 2011-2015 [3] S.
Ratke: The effect of rotating magnetic fields on the microstructure of directionally solidified Al–Si–Mg alloys, Materials Science and Engineering A 413–414 (2005) 200–204 [4] F.D.
Santos: Effect of a rotating magnetic field at the microstructure of an A354, Journal of Materials Research and Rechnology, 2 (2) (2013) 100-109 [12] L.
Mbaya: Effect of forced melt flow on microstructure evolution in AlSi7Mg0.6 alloy during directional solidification, Materials Science and Engineering A, 413–414 (2005) 236–242 [15] W.J.
Müller: Numerical study on directional solidification of AlSi alloys with rotating magnetic fields under microgravity conditions, Journal of Materials Science, 39, (2004) 2011-2015 [3] S.
Ratke: The effect of rotating magnetic fields on the microstructure of directionally solidified Al–Si–Mg alloys, Materials Science and Engineering A 413–414 (2005) 200–204 [4] F.D.
Santos: Effect of a rotating magnetic field at the microstructure of an A354, Journal of Materials Research and Rechnology, 2 (2) (2013) 100-109 [12] L.
Mbaya: Effect of forced melt flow on microstructure evolution in AlSi7Mg0.6 alloy during directional solidification, Materials Science and Engineering A, 413–414 (2005) 236–242 [15] W.J.
Online since: October 2015
Authors: Da Wei Zhang, Y.G. Shi, Hui Xiao, Jun Ao Zhang
Material attributes.
Relative material attribute is shown in Table 1, and some values of interface stiffness are shown in Table 2.
Table 1: Material attributes.
Acknowledgments This research project is supported by a grant from the National Science and Technology Major Project of China (No. 2013ZX04005-013).
A., Machine tool axis dynamics, Proceedings of the institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 220 (2006) 403–419
Relative material attribute is shown in Table 1, and some values of interface stiffness are shown in Table 2.
Table 1: Material attributes.
Acknowledgments This research project is supported by a grant from the National Science and Technology Major Project of China (No. 2013ZX04005-013).
A., Machine tool axis dynamics, Proceedings of the institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 220 (2006) 403–419
Online since: June 2024
Authors: Rosemary Adedokun, Bala Anegbe, Shephrah Olubusola Ogungbesan, James Okuo, Samuel Abayomi Ayesa, Edidiong Emmanuel Ikpe
Journal of Hazardous Materials, 421 (2022) 126709
PeerJ Materials Science 5 (2023) e29
Journal of Hazardous Materials,373 (2019) 820-834
IOP Conference Series: Materials Science and Engineering Conference Series: Materials Science and Engineering, 509, 1, p. 012042.
Journal of Hazardous Materials, 400, (2020) 123289
PeerJ Materials Science 5 (2023) e29
Journal of Hazardous Materials,373 (2019) 820-834
IOP Conference Series: Materials Science and Engineering Conference Series: Materials Science and Engineering, 509, 1, p. 012042.
Journal of Hazardous Materials, 400, (2020) 123289
Online since: November 2013
Authors: Ivona Černičková, Pavol Priputen, Jozef Janovec
Priputenc
Slovak University of Technology in Bratislava, Faculty of Materials Science and Technology in Trnava, Paulínska 16, 917 24 Trnava, Slovak Republic
ajozef.janovec@stuba.sk, bivona.cernickova@stuba.sk, cpavol.priputen@stuba.sk
Keywords: complex metallic alloy; structurally complex phase; scanning electron microscopy; transmission electron microscopy; energy-dispersive X-ray spectroscopy; high-angle annular dark-field imaging; X-ray diffraction; differential thermal analysis.
Fig. 4 HAADF image showing coexistence of phases ε6, ε16, and ε28 in non-equilibrium Al73.8Pd11.9Co14.3 alloy Acknowledgements The authors wish to thank to the European Regional Development Fund (ERDF) for financial support of the projects ITMS:26220120014 and ITMS:26220120048 “Center for development and application of advanced diagnostic methods in processing of metallic and non-metallic materials” funded within the Research & Development Operational Programme, to the Slovak Academy of Sciences for the support in the frame of the “Center of Excellence for functional multiphase materials“ (FUN-MAT), to the Slovak Research and Development Agency (APVV) for the financial support under the contract APVV-0076-11, as well as to the Grant Agency of the Ministry of Education, Science, Research, and Sport of the Slovak Republic and the Slovak Academy of Sciences (VEGA) for the financial support under the contract 1/0143/12.
Kim: Materials Science and Engineering Vol. 294 (2000), p. 99 [6] S.
McHenry, Structure of materials: An introduction to crystalography, diffraction, and symmetry, Cambridge University Press, New York (2008)
Grushko: Materials Science and Engineering Vol.
Fig. 4 HAADF image showing coexistence of phases ε6, ε16, and ε28 in non-equilibrium Al73.8Pd11.9Co14.3 alloy Acknowledgements The authors wish to thank to the European Regional Development Fund (ERDF) for financial support of the projects ITMS:26220120014 and ITMS:26220120048 “Center for development and application of advanced diagnostic methods in processing of metallic and non-metallic materials” funded within the Research & Development Operational Programme, to the Slovak Academy of Sciences for the support in the frame of the “Center of Excellence for functional multiphase materials“ (FUN-MAT), to the Slovak Research and Development Agency (APVV) for the financial support under the contract APVV-0076-11, as well as to the Grant Agency of the Ministry of Education, Science, Research, and Sport of the Slovak Republic and the Slovak Academy of Sciences (VEGA) for the financial support under the contract 1/0143/12.
Kim: Materials Science and Engineering Vol. 294 (2000), p. 99 [6] S.
McHenry, Structure of materials: An introduction to crystalography, diffraction, and symmetry, Cambridge University Press, New York (2008)
Grushko: Materials Science and Engineering Vol.
Online since: August 2015
Authors: Nadia Febiana Djaja, Rosari Saleh
Dutta, Photocatalytic degradation of organic dyes with manganese-doped ZnO nanoparticles, Journal of Hazardous Materials 156 (2008)194-200
Yao, Preparation and visible light photocatalytic activity of Zn1− x FexO nanocrystalline, Materials Chemistry and Physics 130 (2011) 5-9
Saleh, Characteristics and Photocatalytics Activities of Ce-Doped ZnO Nanoparticles, Materials Sciences and Applications 4 (2013) 145-152
Hameed, Parameters affecting the photocatalytic degradation of dyes using TiO2-based photocatalysts: A review, Journal of Hazardous Materials 170 (2009) 520–529
Ismail, Zeolite Y Encapsulated with Fe-TiO2 for Ultrasound-Assisted Degradation of Amaranth Dye in Water, Journal of Hazardous Materials 233 – 234 (2012) 184 – 193
Yao, Preparation and visible light photocatalytic activity of Zn1− x FexO nanocrystalline, Materials Chemistry and Physics 130 (2011) 5-9
Saleh, Characteristics and Photocatalytics Activities of Ce-Doped ZnO Nanoparticles, Materials Sciences and Applications 4 (2013) 145-152
Hameed, Parameters affecting the photocatalytic degradation of dyes using TiO2-based photocatalysts: A review, Journal of Hazardous Materials 170 (2009) 520–529
Ismail, Zeolite Y Encapsulated with Fe-TiO2 for Ultrasound-Assisted Degradation of Amaranth Dye in Water, Journal of Hazardous Materials 233 – 234 (2012) 184 – 193
Online since: January 2013
Authors: Huan Yu Jin, Hua Yin, Xing Liu, Yan An
Because of excellent mechanical and biological properties, it will be great important in the improving properties of materials.
These materials may react to body and induce toxic and side effects[8-10].
Science of Sericulture, 37(2011) 1073-1078
Journal of Biomedical Materials Research Part A, 2011, 98(4):567-75
Science of Sericulture, 37(2011) 706-712
These materials may react to body and induce toxic and side effects[8-10].
Science of Sericulture, 37(2011) 1073-1078
Journal of Biomedical Materials Research Part A, 2011, 98(4):567-75
Science of Sericulture, 37(2011) 706-712
Online since: September 2015
Authors: Yong Jie Liu, Jiu Kai Li, Fang Hou, Qingyuan Wang
Le Saunier, Laser shock peening of Ti-17 titanium alloy: Influence of process parameters, Materials Science and Engineering: A, 532 (2012) 362-372
Jones, Development of ultrasonic fatigue for rapid high temperature fatigue studies in turbine engine materials, Materials Damage Prognosis, (2005) 247-252
Jones, Ultrasonic fatigue of a single crystal Ni-base superalloy at 1000°C, Materials Science and Engineering: A, 443 (2007) 142-149
Stanzl-Tschegg, Influence of loading frequency on the high cycle fatigue properties of AlZnMgCu1.5 aluminium alloy, Materials Science and Engineering A, 314 (2001) 48 - 54
Stanzl-Tschegg, Influence of loading frequency on high cycle fatigue properties of b.c.c. and h.c.p. metals, Materials Science and Engineering: A, 308 (2001) 143-152
Jones, Development of ultrasonic fatigue for rapid high temperature fatigue studies in turbine engine materials, Materials Damage Prognosis, (2005) 247-252
Jones, Ultrasonic fatigue of a single crystal Ni-base superalloy at 1000°C, Materials Science and Engineering: A, 443 (2007) 142-149
Stanzl-Tschegg, Influence of loading frequency on the high cycle fatigue properties of AlZnMgCu1.5 aluminium alloy, Materials Science and Engineering A, 314 (2001) 48 - 54
Stanzl-Tschegg, Influence of loading frequency on high cycle fatigue properties of b.c.c. and h.c.p. metals, Materials Science and Engineering: A, 308 (2001) 143-152