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Online since: July 2019
Authors: Kittitat Subannajui, Naruporn Monmaturapoj, Niwat Anuwongnukroh, Surachai Dechkunakorn, Tanawan Wanitwisutchai, Pong Pongprueksa, Ratchapin Laovanitch Srisatjaluk
Dental materials : official publication of the Academy of Dental Materials. 2003;19:313-9
European journal of oral sciences. 2007;115:468-72
Journal of biomedical materials research. 1978;2:117-41
Journal of biomedical materials research. 1998;41:511-8
Journal of biomedical materials research Part A. 2010;93:475-83
European journal of oral sciences. 2007;115:468-72
Journal of biomedical materials research. 1978;2:117-41
Journal of biomedical materials research. 1998;41:511-8
Journal of biomedical materials research Part A. 2010;93:475-83
Online since: September 2017
Authors: Alberto Milazzo, Ivano Benedetti, Vincenzo Gulizzi
Summary
A new 3D formulation for the analysis of intergranular degradation and failure in polycrystalline materials has been developed.
Computational Materials Science, 67, 249-260, 2013 [7] V Gulizzi, A Milazzo, I Benedetti, An enhanced grain-boundary framework for computational homogenization and micro-cracking simulations of polycrystalline materials.
Journal of the Mechanics and Physics of Solids, 52(10), 2403-2430, 2004 [10] GK Sfantos, MH Aliabadi, A boundary cohesive grain element formulation for modelling intergranular microfracture in polycrystalline brittle materials.
Computer Methods in Applied Mechanics and Engineering, 265, 36-62, 2013 [13] I Benedetti, MH Aliabadi, Multiscale modeling of polycrystalline materials: A boundary element approach to material degradation and fracture.
International Journal of Plasticity, 83, 202-224, 2016 [15] I Benedetti, F Barbe, Modelling Polycrystalline Materials: An Overview of Three-Dimensional Grain-Scale Mechanical Models.
Computational Materials Science, 67, 249-260, 2013 [7] V Gulizzi, A Milazzo, I Benedetti, An enhanced grain-boundary framework for computational homogenization and micro-cracking simulations of polycrystalline materials.
Journal of the Mechanics and Physics of Solids, 52(10), 2403-2430, 2004 [10] GK Sfantos, MH Aliabadi, A boundary cohesive grain element formulation for modelling intergranular microfracture in polycrystalline brittle materials.
Computer Methods in Applied Mechanics and Engineering, 265, 36-62, 2013 [13] I Benedetti, MH Aliabadi, Multiscale modeling of polycrystalline materials: A boundary element approach to material degradation and fracture.
International Journal of Plasticity, 83, 202-224, 2016 [15] I Benedetti, F Barbe, Modelling Polycrystalline Materials: An Overview of Three-Dimensional Grain-Scale Mechanical Models.
Construction of Development Technology of Next Generation Applied Electromagnetic Machinery in Japan
Online since: December 2010
Authors: Masato Enokizono
In other words, it is to develop the high performance machine using the high quality material.
This is investigated by the investigation expert committee of the power magnetic material in JIEE.
Enokizono,“Two-Dimensional Magnetic Properties, Journal of IEE of Japan, Vol.
Yuki,“Constitutive Equation of Magnetic Materials and Magnetic Field Analysis”, IEEE Trans on Magnetics, Vol.
Enokizono,”E&S2 Model for Vector Magnetic Hysteresis Property”, Journal of Magnetism and Magnetic Materials, 254, 290-292, 2003
This is investigated by the investigation expert committee of the power magnetic material in JIEE.
Enokizono,“Two-Dimensional Magnetic Properties, Journal of IEE of Japan, Vol.
Yuki,“Constitutive Equation of Magnetic Materials and Magnetic Field Analysis”, IEEE Trans on Magnetics, Vol.
Enokizono,”E&S2 Model for Vector Magnetic Hysteresis Property”, Journal of Magnetism and Magnetic Materials, 254, 290-292, 2003
Online since: March 2016
Authors: Fang Qiu Zu, Xue Ting Dai, Yuan Yu, Zhong Yue Huang
Nature Materials, 2009, 8(2):83-85
Journal of Electronic Materials, 2012, 41(6):1165-1169
Journal of Electronic Materials, 2015, 44(6):1450-1503
Materials Research Bulletin, 2003, 38(4):599–608
Journal of Electronic Materials, 2013, 42(7):2043-2047
Journal of Electronic Materials, 2012, 41(6):1165-1169
Journal of Electronic Materials, 2015, 44(6):1450-1503
Materials Research Bulletin, 2003, 38(4):599–608
Journal of Electronic Materials, 2013, 42(7):2043-2047
Online since: February 2013
Authors: Shu Kui Li, Hong Sheng Ding, Jin Xu Liu, Yu Meng Luo, Jie Liu
The protection performance of materials with higher mt can be improved more efficiently by increasing its thickness, and the materials with lower me have a good protection potential when the impact energy increased.
Materials Science and Engineering 2003; A358:128-133
Journal of Materials Science Letters 1986; 5: 453-454
Materials and Design 2008; 29(10): 2009-2016
Metallurgical and Materials Transactions A 2003; 34: 2541-2548
Materials Science and Engineering 2003; A358:128-133
Journal of Materials Science Letters 1986; 5: 453-454
Materials and Design 2008; 29(10): 2009-2016
Metallurgical and Materials Transactions A 2003; 34: 2541-2548
Online since: November 2019
Authors: S. Pradeep, B. Kuldeep, K.P. Ravikumar, Rao R. Raghavendra, C.K. Yogish
Over the last decades composite materials, plastics and ceramics have been the dominant emerging materials.
Introduction Composites are tailored materials by combining two or more materials in which one of the materials is the reinforcing material, is in the form of fibers, sheets, or particles, and are embedded in the other materials called the matrix phase.
Materials and Methods The following materials are incorporated in this study, Epoxy resin (CAMELECT 3321), and hardener (CAMCURE 2411) is used as matrix material.
K, “Mechanical Characterization of Rice Husk Flour Reinforced Vinylester Polymer Composite” International Journal of Innovative Research in Science, Engineering and Technology, Volume 2, pp. 125-261, November 2009
Journal of materials science 18, no. 5 (1983): 1443-1454
Introduction Composites are tailored materials by combining two or more materials in which one of the materials is the reinforcing material, is in the form of fibers, sheets, or particles, and are embedded in the other materials called the matrix phase.
Materials and Methods The following materials are incorporated in this study, Epoxy resin (CAMELECT 3321), and hardener (CAMCURE 2411) is used as matrix material.
K, “Mechanical Characterization of Rice Husk Flour Reinforced Vinylester Polymer Composite” International Journal of Innovative Research in Science, Engineering and Technology, Volume 2, pp. 125-261, November 2009
Journal of materials science 18, no. 5 (1983): 1443-1454
Online since: December 2019
Authors: Ivano Benedetti, Alberto Milazzo, Marco Lo Cascio
In this contribution, polycrystalline materials are considered as an application.
In this work, polycrystalline materials are considered as an application.
Computational Materials Science, 67, 249-260, 2013 [8] Benedetti I, Aliabadi MH.
Multiscale modeling of polycrystalline materials: A boundary element approach to material degradation and fracture.
Mechanics of Materials, 117, 137-151, 2018 [14] Benedetti I, Gulizzi V, A grain-scale model for high-cycle fatigue degradation in polycrystalline materials, International Journal of Fatigue, 116, 90-105, 2018 [15] Roters F, Eisenlohr P, Hantcherli L, Tjahjanto DD, Bieler TR, Raabe D.
In this work, polycrystalline materials are considered as an application.
Computational Materials Science, 67, 249-260, 2013 [8] Benedetti I, Aliabadi MH.
Multiscale modeling of polycrystalline materials: A boundary element approach to material degradation and fracture.
Mechanics of Materials, 117, 137-151, 2018 [14] Benedetti I, Gulizzi V, A grain-scale model for high-cycle fatigue degradation in polycrystalline materials, International Journal of Fatigue, 116, 90-105, 2018 [15] Roters F, Eisenlohr P, Hantcherli L, Tjahjanto DD, Bieler TR, Raabe D.
Online since: January 2017
Authors: Xiao Wei Ma, Ke Chang Zhang, Jia Yan Zhang, Ling Kai Kong, Jia Le Sun, Jian Xing Shen
Metal[1‒5], organic materials[6‒8] and inorganic nonmetallic materials[9‒13] are the most widely used biological materials.
In recent studies, sodium titanate is being extensively studied due to its potential technological applications, such as photocatalysts, cation exchangers material for the treatment of liquid waste[15,16], electrode materials for ion batteries[17], reinforcing agents of plastic, gas sensitive materials for gas sensors[18], electrode materials of supercapacitors[19], heavy metal ions adsorption materials[20], and bioactive material etc.
Fig. 2 (a) The XRD pattern of the re‒synthesized raw materials.
Zanotto: Materials Science & Engineering C, Vol. 31 (2011) No.8,p.1791
Wang: Acs Applied Materials & Interfaces, Vol. 4 (2012) No.5,p.2762
In recent studies, sodium titanate is being extensively studied due to its potential technological applications, such as photocatalysts, cation exchangers material for the treatment of liquid waste[15,16], electrode materials for ion batteries[17], reinforcing agents of plastic, gas sensitive materials for gas sensors[18], electrode materials of supercapacitors[19], heavy metal ions adsorption materials[20], and bioactive material etc.
Fig. 2 (a) The XRD pattern of the re‒synthesized raw materials.
Zanotto: Materials Science & Engineering C, Vol. 31 (2011) No.8,p.1791
Wang: Acs Applied Materials & Interfaces, Vol. 4 (2012) No.5,p.2762
Online since: July 2013
Authors: Qi Hong, Liang Zou, Yan Wen Mao
International Journal of Production Research ,Vol.3(1982) ,p.319-337
[3] Lunlai Wan, Daqin Li, Flexible nature of its construction strategy.
Journal of Management Sciences.
Journal of computer applications ,Vol. 24(10)( 2004),p.82-85 (In Chinese) [7] Qi Hong, Yanwen Mao,Tao Zhu,et al.
Journal of Shaanxi University of Technology (Natural Science Edition),Vol. 28(2)(2012), p.49-54 (In Chinese) [9] Qi Hong, Liang Zou, Mengyuan Hong,et al.
Journal of Shaanxi University of Technology (Natural Science Edition), Vol.28(3) (2012),p.18-21 (In Chinese) [10] Qi Hong, Fanzhe Wei.
Journal of Management Sciences.
Journal of computer applications ,Vol. 24(10)( 2004),p.82-85 (In Chinese) [7] Qi Hong, Yanwen Mao,Tao Zhu,et al.
Journal of Shaanxi University of Technology (Natural Science Edition),Vol. 28(2)(2012), p.49-54 (In Chinese) [9] Qi Hong, Liang Zou, Mengyuan Hong,et al.
Journal of Shaanxi University of Technology (Natural Science Edition), Vol.28(3) (2012),p.18-21 (In Chinese) [10] Qi Hong, Fanzhe Wei.
Online since: December 2018
Authors: Roberto Montanari, Loredana Santo, Alessandra Varone, Maria Richetta, Claudio Testani, Giovanni Matteo Tedde, Riccardo Donnini, Andrea Di Schino
Chen, Effects of minor Cu and Mg additions on microstructure and material properties of 8xxx aluminum conductor alloys, Journal of Materials Research, 32 (2017) 1094-1104
[15] R Kaibyshev, O Sitdikov, A Goloborodko, Grain refinement in as-cast 7475 aluminum alloy under hot deformation, Materials Science and Engineering A 344 (2003) 348-356
Wanhill, Aerospace Materials and Material Technologies, Vol.1: Aerospace Materials, 2 (2017) 29-52
Montanari, Continuous dynamic recrystallization (CDRX) model for aluminum alloys Journal of Materials Science, 53 (2017) 4563-4573
McQueen, Development of dynamic recrystallization theory, Materials Science and Engineering A, 387–389 (2004) 203-208
[15] R Kaibyshev, O Sitdikov, A Goloborodko, Grain refinement in as-cast 7475 aluminum alloy under hot deformation, Materials Science and Engineering A 344 (2003) 348-356
Wanhill, Aerospace Materials and Material Technologies, Vol.1: Aerospace Materials, 2 (2017) 29-52
Montanari, Continuous dynamic recrystallization (CDRX) model for aluminum alloys Journal of Materials Science, 53 (2017) 4563-4573
McQueen, Development of dynamic recrystallization theory, Materials Science and Engineering A, 387–389 (2004) 203-208