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Advanced Materials Research, (2011). 264, 997-1002
Advanced Materials Research, 83, (2010). 1009-1015
Advanced Materials Research, 576, (2012).103-106
Journal of Achievements in Materials and Manufacturing Engineering, 22(2), 75-78
Science 220:671–680

Earthquake will lead to generate massive loose solid materials, as much as to 50-150 hundred millions m3 [1, 2, 3, 4].
In domestic research community, GIS technology is taken to investigate these loose materials distribution features and thus when select location of transmission lines, designers will skirt around dangerous areas [6, 7, 8, 9].
Based on these features, characteristics, depth of valley, and the distribution materials within ditch can be identified.
Science in China (Edition E), 2009a, 52(4): 810-819
Journal of Mountain Science, 2009,5(4):501-509

Journal of Materials Processing Technology, 2009. 209(8): p. 4084-4087
International Journal of Refractory Metals and Hard Materials, 2012. 34: p. 13-17
Journal of materials science, 1997. 32(15): p. 3971-3974
Journal of Materials Processing Technology, 1997. 63(1–3): p.364-369
Journal of materials science, 2009. 44(1): p. 1-39

Jolly: Journal of Materials Processing Technology Vol. 135 (2003), p. 189
Jolly: Journal of Materials Processing Technology Vol. 135 (2003), p. 197
Kim: Journal of Materials Processing Technology Vol. 173 (2006), p. 223
Kim: Journal of Materials Processing Technology Vols. 143-144 (2003), p. 729
Shivpuri: Journal of Materials Processing Technology Vol. 150 (2004), p. 70

Acknowledges The work presented in this paper is supported by National Natural Science Foundation of China (90815014, 90715021, 50808168) , Heilongjiang Scientific Research Foundation for Postdoctoral and Heilongjiang Natural Science Foundation (E200827).
Paret.: Journal of structural engineering.
:Fracture mechanics and fracture physics(Huazhong University of Science and Technology Press 2003)
M.: Journal of Construct Steel Research.
E.: Journal of structural engineering.

Deformation Characteristics of Epoxy Compounds for Semiconductor Integrated Circuits Hiroyuki Saiki1, Yasuo Marumo 1a, Hiroshi Nishitake2, Masahiro Hazama1, Fuminori Sakata 1 1 Department of Mechanical Engineering and Materials Science, Kumamoto University, 2-39-1 Kurokami, Kumamoto 860-8555, Japan 2 Sony Semiconductor Kyusyu Ltd, Japan a marumo@gpo.kumamoto-u.ac.jp Keywords: Deformation characteristics, Epoxy molding compounds, IC package Abstract.
Barrett, C.O'Mathuna, Journal of Materials Processing Technology, 54(1995)199-204
[7] S.Yi, H.Hilton, M.F.Ahmad, Mechanics of Composite Materials Structures, 5(1998)81-101
Schanin, Polymer Engng. and Science, 23-15 (1983) 849-859
Materials and Technology, 93-3 (1976), 193-202.

Study of the mechanical deformation of transforming nanowires constrained in metal matrix Bin Zhenga, Hui-ling Du School of Materials Science and Engineering, Xi’an University of Science and Technology, Xi’an 710054, China azhengbin@xust.edu.cn Keywords: Nanocomposite, Mechanical properties, Stress induced phase transformation, Molecular dynamics simulation Abstract.
This achievement encouraged the study of nanocomposite materials with unique attributes.
In nanocomposite materials, the free surface is replaced by the nano interfacial surface.
Stiffness contribution of cellulose nanofibrils to composite materials [J].
Journal of Materials Research, 2009, 24: 2210-2214

The overall, in numerical modeling, the ship material aluminum and ship composite materials can be used as an alternative material for ship building, however is still needed comprehensive testing in the field.
Introduction Materials of ship building can be divided into two major parts, namely ship of steel and non-ship of steel.
This means that the material aluminum EN AC-43100 (AlSi10Mg (b)) and composite materials EN AC-43100 (AlSi10Mg (b))+SiC */15p) can be used throughout the full of body ship.
Zhou zhao, Song Zhijian and Xu Yingkum, 1991,"Effect of Microstructure on the Mechanical Properties of an Al Alloy 6061 ", J. material science and engineering, A132, p83
Huang Scott Xiaodi and Paxton Kip,1998,‘A Macrocomposite Al Brake Rotor for Reduced Weight and Improved Performance, Journal of Materials’ Innovations in Aluminum, Part IV, August 1998

Discovery of Zr-Al-Ca-O Phase in Zr-Al-Ca-O-N Composite and Its Synthesis Ronglin Wang1, 2, a, Jialin Sun 1, b, Jinglong Bu2, c and Zhifa Wang2, d 1School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 10083, China 2Hebei Province Key Laboratory of Inorganic Nonmetallic Materials, College of Materials Science and Engineering, Hebei Polytechnic University, Tangshan 063009, China anhclwrl@126.com, bustb_sun@163.com, cbjl@heut.edu.cn, dnhclwzf@126.com Keywords: Zr-Al-O-N phase; Zr-Al-Ca-O phase; Zr-Al-Ca-O-N composite.
Zr-Al-Ca-O-N composites were prepared in N2 atmosphere at 1600 oC with Ca-PSZ and AlN powders as raw materials.
Raw materials were weighed and mixed for 2h by wet ball method.
Journal of the European Ceramic Society.
Advanced Materials Research.

An enhancement in epoxy composites properties has been achieved by filler materials.
Base material used for making specimen was Bisphenol A (Epoxy rein 35%wt) + Silica (65%wt) and hardener material was Acid Anhydrite I (28%wt) + Silica (72%).
Friedrich, Fracture behaviors of epoxy nanocomposites with nano-silica at low and elevated temperatures, Journal of Materials Science, Volume 42, Number 8, 2007, pp. 2766-2774 [2]E.
Taylor, Mechanical and fracture properties of epoxy/inorganic micro and nano-composites, Journal of Materials Science Letters, Volume 22, Number 20, 2003, pp. 14391441 [4]A.C.
Stieger, The fracture of particulate-filled epoxide resins, Journal of Materials Science, Volume 18, Number 1, 1983, pp. 208-216 [5]A.