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It is successfully used for variety of materials with different ranges of temperature and strain rate.
Therefore, J-C model has enjoyed much success for its simplicity and the availability of parameters for various materials.
Vol.30 (2011), p.30~33 [5] ShuYing, ZengWeidong, Zhou Jun, Zhou Yigang, Zhou Lian: Material Science and Technology, Vol.13 (2005), p.66~69
Anirudh , Swadesh Kumar Singh: Materials and Design.
Vol.43 (2013), p.410~418 [8] Chang Liezhen, Pan Yutan, Zhang Zhimin, Xue Yong: Journal of Materials Science and Engineering.

Petit, Progress in Materials Science, 46 (2001), p. 505 [7] R.
Evans, Metallurgical and Materials Transactions a-Physical Metallurgy and Materials Science, 34 (2003), p. 511 [10] S.
Bartsch, Materials Science and Engineering A., Submitted (2006)
Hemker, Metallurgical and Materials Transactions APhysical Metallurgy and Materials Science, 35A (2004), p. 2279 [36] M.
Gell, Materials Science and Engineering AStructural Materials Properties Microstructure And Processing, 342 (2003), p. 120 [40] H.

Light weight materials were adopted as filler to improve the lateral crashworthiness of energy absorbing structures.
For the mass production of automobile, light weight material filling is not that feasible in the production process.
International Journal of Mechanical Sciences, 1999, 41(2):178~208
International Journal of Mechanical Sciences, 1999, 41(2):209~233
International Journal of Mechanical Sciences, 1999, 41(8):967~993

Since, silicon carbide material is used as a polishing material to avoid the deposit of carbon at the inner side of the flow passage and this waste heat energy is used for heating passenger cabin during winter season.
The wood is used as an insulating material to avoid the heat flow from fluid to atmosphere.
The lubricating property of the silicon is more compared to silicon carbide material.
But the thermal conductivity of silicon carbide is more compared to beryllium and silicon material.
Bejan, Three-dimensional optimization of staggered finned circular and elliptic tubes in forced convection, International Journal of Thermal Sciences 43 (2004) 477–487

Table1: Chemical composition, in percentage, of raw materials.
Table 2: Particle size distribution of raw materials.
Zegardlo: Construction and Building Materials Vol. 48 (2013), p. 295
Segadães: Journal Applied Clay Science Vol. 69 (2012), p. 50
Wang: Journal Applied Clay Science Vol. 70 (2012), p. 67

Tsipas: Advanced Engineering Materials, 2011, 13 (1-2), pp. 29-32
Stergioudi: Materials and Design, 2011, 32, pp. 1559–1564
Capell, G.S Wes, Materials Science and Engineering A 300 (2001) pp.94-104
Rieke, Diandra L, Leslie-Pelecky: Journal of Magnetism and Magnetic Materials, 2000, 222, pp. 70-78
[20] Lin He: Journal of Magnetism and Magnetic Materials, 2010, 322, pp. 1991–1993

Microstructure of Co-Cr alloy products with three-dimensional geometry fabricated by laser beam sintering Ai Serizawa 1, a, Tomoki Tanaka 1, b, and Takayoshi Nakano 1, c, 1 Division of Materials and Manufacturing Science, Graduate School of Engineering Osaka University, 2-1 Yamada-oka, Suita, Osaka 565-0871, Japan a serizawa@mat.eng.osaka-u.ac.jp, b tomoki.tanaka@mat.eng.osaka-u.ac.jp, c nakano@mat.eng.osaka-u.ac.jp Keywords: Laser beam sintering (LBS); Biomaterial; Young’s modulus; Self-organized function; Martensitic transformation; Co-Cr alloy Abstract.
Introduction Loosening and fracture of the metallic implant due to the difference in mechanical properties between bone and implant materials have remained as a serious issue for expected lifetime.
As a result, a biomaterial which works like bone and have a mechanical function of stress transfer after the implantation should be built using mechanically reliable metallic materials.
Davis III, The Journal of Arthroplasty, In press
Tabata, Journal of Bone and Mineral Research, 28 (2013) 1170–1179

One way of fulfilling these contradicting requirements is lightweight material construction, in which a reduction in body weight can be achieved through the substitution of steel by modern lightweight construction materials.
CIRP Journal of Manufacturing Science and Technology, (2017), 16, 43--54
Journal of Materials Processing Technology, (2009), 209, 4237--4242
Materials Today, (2018), 5, 18905--18910
Journal of Materials Research and Technology, (2018), 8(1), 1461--1469

Many research reports that doping ZnS semiconductor with transition metal reveals a new class of luminescent materials due to the formation of dopant levels within the band gaps and the modification of the band structure.
Gautam , Liang Li b,Limin Wua,, Yoshio Bando, Dmitri Golberg: Synthesis and properties of transition metals and rare-earth metals doped ZnS nanoparticles, Progress in Materials Science 56 (2011) 175–287 [12] He Hu, Weihua Zhang: Synthesis and properties of transition metals and rare-earth metals doped ZnS nanoparticlesOptical Materials 28 (2006) 536–550 [13] Milan Kanti Naskar, Amitava Patra , Minati Chatterjee.
Understanding the role of surfactants on the preparation of ZnS nanocrystals Journal of Colloid and Interface Science 297 (2006) 271–275
Science and technology of advanced materials 6 (2005) 296-301
Materials science and engineering B 150(2008) 125-129

Study of the synthesis and photocatalytic properties of iron-doped titania nanocrystallines at room temperature Wei Zhihao, Zhong Min*, Deng Yin College of Materials Science and Engineering, China Jiliang University, Hangzhou 310018 *zhongmin@cjlu.edu.cn Keywords: sol-gel; iron-doped; titania; photocatalytic property Abstract.
Raw materials: Chemical pure Ti(OC4H9)4, C2H5OH, Fe(NO3)3·9H2O.
[4]Zeng Yan.The characteristics and photocatalytic activity of metal-doped TiO2[J].JIANG XI SCIENCE,2010,28(4):436-440
Preparation and photocatalytic property of Ag-doped TiO2[J].JOURNAL OF FUCTIONAL MATERIALS,2010,12(41):2169-2173
[7]Yue Linhai,Shui Miao,Xu Zhude.The phase transition and photocatalytic activity of rare earth-doped TiO2[J].Journal of Zhejiang University SCIENCE,2000,27 (1):69–74