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Molecular dynamics simulations can study the material of atomic motion, mechanical properties, thermal properties, etc, and it had received lots of research in physics, material science, life science and other fields [5,6,7].
Model Molecular dynamics is one computer simulation method which was widely used in materials science.
Electrical Materials,2008,2:35-37
NanoStructured materials, 1998, 0:837-851 [7] Zeng P, Zzjac S, Clapp P C, et al.
Materials Science and Engineering A, 1998, 252: 301-306 [8] Wang Changsong, Wei Defan.

EXPERIMENTAL PROCEDURE Materials.
Grohens, Materials Letters, 57 (2002) 64-71
Zhou, Materials Science and Engineering: R: Reports, 49 (2005) 89-112
Tarng, Journal of Materials Processing Technology, 102 (2000) 48-55
Lee, Journal of Materials Processing Technology, 209 (2009) 3374-3383

Threrfore, the three-parameter equation’s successful prediction on these materials indicate that the approach can be extended more other materials.
Brown, Journal of Engineering Materials and Technology, 118(1996) ,367-370 [5] A.
Topper, Journal of Materials, 5(1970),767-78 [7] K.C.
Jiang, Materials science and Engineering, 546 (2012), 119-128 [13] Q.
Jiang, Journal of Engineering Materials and Technilogy, 130 (2008) :0.1013-1-12 [16]Y.

After 1990s, with the rapid development of high-speed trains, thin walled and hollow-based 6005A structures have become mainstream materials of car body.
Journal of Changchun University of Technology (Natural Science Edition), 2011-02
Journal of Engineering Materials and Technology, 1984, 106(2):132-138
An integral method to determine the mechanical behavior of materials in metal cutting [J].
Journal of Materials Processing Technology, 2003, 142:72-81.

Feest, Microstructure of stir-cast metals, Materials Science and Engineering, Vol. 65, n. 1, pp. 181-189, 1984
Smeulders, On the formation of the stircast structure, Journal of materials science, Vol. 21, pp. 389-394, 1986
Jones, Effect of heat treatment on properties of thixoformed high performance 2014 and 201 aluminium alloys, Journal of Materials Science, Vol. 39, n. 1, pp. 99-105, 2004
Wang, Microstructure and mechanical properties of rheo-diecast AZ91D magnesium alloy, Journal of Materials Science, Vol. 41, n. 12, pp. 3631-3644, 2006
Overfelt, Fatigue property of semisolid A357 aluminum alloy under different heat treatment conditions, Journal of Materials Science, Vol. 41, n. 22, pp. 7537-7544, 2006

However, finite element analysis requires clinical verification or a determination of material properties, and photoelastic materials generally have material properties and structure quite different from those of actual bone.
(ii) The specimen was placed in a tabletop materials tester (EZ Test; Shimadzu), with a load resolution of 0.010 N and a displacement resolution of 10 µm.
The horizontal and vertical axes represent the displacement of the crosshead of the materials tester and the load measured with the load cell, respectively.
Part I, Journal of Prosthetic Dentistry, 85(5), 442-449, 2001
Part II, Journal of Prosthetic Dentistry, 85(5), 450-454, 2001

Nair, Microstructural analysis and discontinuities in the brazed zone of copper tubes, Journal of Materials Processing Technology, 141 (2003) 302-312
Rethwisch, Fundamentals of Materials Science and Engineering, An Integrated Approach, Third ed., John Wiley & Sons Inc., Hoboken, 2008
Zhao, Experimental and FEM study on sinking of miniature inner grooved copper tube, Journal of Materials Processing Technology, 209 (2009) 5333-5340
Deng, Groove deformation analysis of a single plough on inner copper tube, Journal of Materials Processing Technology, 211 (2011) 1669-1677
Kim, Fabrication of aluminum/copper clad composite using hot hydrostatic extrusion process and its material characteristics, Materials Science and Engineering: A, 384 (2004) 70-76

Introduction As one of the most commonly used titanium alloys, titanium and its alloys are utilized in aero-engine and airframe manufacture because of their outstanding strength to density ratios relative to other materials.
Titanium and its alloys are utilized in aero-engine and airframe manufacture because of their outstanding strength to density ratios relative to other materials.
In addition the susceptibility of titanium to work-harden during machining impair their machining ability, hence they are referred to as difficult-to-machine materials.
As for capabilities, especially fatigue resistance, titanium alloy is better than other materials.
Bäker: Journal Of Materials Processing Technology Vol. 167 (2005), p. 1-13

Experimental Materials The PVDF(white solid) kindly provided by Shanghai San Ai New Material Limited company, was dried for 24 h in a vacuum oven prior to use.
Horsfall: Journal of Membrane Science, Vol. 251(2005), p. 121 [5] B.
Kim: Journal of Membrane Science, Vol. 220(2003), p. 75 [6] M.
Picchioni: Journal of Membrane Science, Vol. 166(2000), p. 189 [9] S.
Sundholmf: Journal of Polymer Science Part B-Polymer Physics, Vol. 38 (2000), p. 3277 [10] S.

Investigation of Y1-xCaxBaCo2O5+δ cathodes for intermediate-temperature solid oxide fuel cells Wujie Ge1,a, Qun Shao2,b , Yanzhi Ding*,3,c and Xiaoyong Lu3,d 1Institute of Chemical Engineering, Anhui University of Science and Technology; Anhui Key Laboratory of Low Temperature Co-fired Materials;Huainan, Anhui, 232001, China 2Institute of Chemical Engineering, Anhui University of Science and Technology, Huainan, Anhui, 232001, China 3Anhui Key Laboratory of Low Temperature Co-fired Materials; Department of Chemistry and Chemical Engineering, Huainan Normal University,Huainan, 232001, Anhui, China agegwj239@163.com, b729694881@qq.com, c * zghndyz@163.com Corresponding author: Yanzhi Ding.
The YCBC materials exhibit chemical compatibility with SDC electrolyte up to a temperature of 1100℃.
Also, due to changes of oxygen stoichiometry (so called chemical expansion), these materials possess high thermal expansion, which causes large mismatch of thermal expansion coefficients (TECs) with typical electrolyte materials.
Conclusions The double perovskite YCBC (x = 0.1-0.5) were investigated as potential cathode materials of IT-SOFCs.
Journal of Materials Chemistry, 2007, 17:2500-2505