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Zhang c School of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001, P.R.
Surappa: Materials Science and Engineering A Vol. 382 (2004), p. 315 [3] A.
Weber: Materials Science and Engineering A Vol. 387-389 (2004), p. 822 [4] M.K.
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Chang, Nanostructured High-entropy Alloys with Multi-Principal Elements-Novel Alloy Design Concepts and Outcomes, Advanced Engineering Materials, 6 (2004) 299-303
Chang, Microstructure characterization of AlxCoCrCuFeNi high-entropy alloy system with multiprincipal elements, Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science, 36A (2005) 881–893
Fu, Microstructure and compressive properties of AlCrFeCoNi high entropy alloy, Advanced Engineering Materials, 491 (2008) 154-158
Shi, Microstructure and mechanical properties of CoCrFeNiTiAlx high-entropy alloys, Materials Science and Engineering, 508 (2009) 214-219 [7] K.
Niihara, Annealing effects on structure and mechanical properties of CoCrFeNiTiAlx high-entropy alloys, Materials Science and Engineering, 20 (2011) 012009

Introduction With the development of modern science and technology, many new non-metallic materials with excellent performance are applied in bridge engineering.
In many FRP materials, the material performance of the CFRP is most prominent.
Journal of Guangzhou University (Natural Science Edition),2006,5(2):90-93
Journal of Central-south Institute of Technology, 2004,18(1):47-51
Journal of Highway and Transportation Research and Development, 2006, 23(2):64-67

School of Materials Science and Engineering, Northwestern Polytechnical University, Xi’an 710072, China; 2.
National Key Laboratory of Science and Technology on Materials under Shock and Impact, No.52 Institute of China Ordnance Industries, Yantai 264003, China) Keywords:Composite armor, Interlayer effect, SHPB, Stress wave propagation, Ballistic performance Abstract.
EXPERIMENTAL AND MODELING Materials and specimens.
Materials properties used in experiment were showed in Table 1.
Journal of Thermoplastic Composite Materials, 2000; 13(5): 417-31

Now, the Solid Isotropic Materials with Penalization (SIMP) method [2] is widely used to construct the relationship between density and material attribute, which makes the relative density of elements as design variables, and makes the topology optimization problems of continuum medium turn to whether there has material in the elements or sub-domains.
Acknowledgements This research is partially funded by the National Natural Science Foundation of China (51105229), the Natural Science Foundation of Outstanding Youth Project of Hubei Province of China (2013CFA022) and the fund project of outstanding dissertation of China Three Gorges University (2014PY026).
Dan: Chinese Journal of Computational Mechanics.
Poulsen: International Journal for Numerical Methods in Engineering.
Zhengxing: Chinese Journal of Solid mechanics.

Journal of Material Processing Technology, Vol. 89–90, 1999, pp.310–317 [5] Y.
Journal of Materials Processing Technology, Vol.135, 2003, pp.44–58 [7] K.
Journal of Materials Processing Technology, Vol.124, 2002, pp.57–66 [9] S.V.
Xia, Influence of Cutter’s Helix Angle, Workpiece Hardness, Milling Orientation, and MQL in High-Speed Side Milling of AISI D2, Advances in Materials Manufacturing Science and Technology II, Vols. 532-533, 2006, pp.45-48 [14] A.
Li, Modeling the Effects of Cutting Parameters in MQL-Employed Finish Hard Milling Process Using D-Optimal Method, Journal of Materials Processing Technology, Vol.199, No.1 – 3, 2008, pp.379-390 [15] A.

In this life cycle, the raw materials are processed into products, products purchased through the circulation of exchange become commodity, and the commodity become waste after people using them, and the waste can be reused as secondary products.
The product disassembly can make the usable parts directly into new product assembly field, through the waste materials into new material degradation and raw material processing program.
For producers, green design is mainly about saving raw materials, simplifying manufacture process, reducing the manufacturing cost through specific design and of course, it has to consider saving the use-procedure and use-cost of the users.
Most of the packaging materials would last for a long time even a hundred years to be decomposed, and so people has to bury or burn them, which brings tremendous damage to the environment.
References [1] Xianglong Pan, Zhuyuan Wu, The New Principle of Green Design Analyzing from the Dutch Product Design, Ergonomics, Zhuangshi, 2010,09 [2] Chunpeng Wang, A Comparative Study on Evaluation Methods of Green Design, Packaging Engineering, 2010,08 [3] Hongfei Sheng, Aimin Pang, Fang Guo, Approach to Mechanical Products Design Based on Theory of Green Design, Journal of Wuhan University of Science and Engineering, 2007,07 [4] Yu’an Shu, Xingfu Xiong, The History Tracing of Ergonomics, 2005 International Industrial Design Conference, 2005 [5] Chunpeng Wang, The Influence and Instruction of Green Design in Industrial Design, Social Sciences in Hubei, 2004,06 [6] Tao Zhang, Analysis of Green Design Concept for Digital Products, Packaging Engineering, 2009,11 [7] Min Chen, Study on the Strategy of Implementation for Green Design, Journal of Machine Design, 2003,02 [8] Yu Ma, On the Evaluation of Industrial Design, Journal of Hubei Automotive Industries, 2003,01

Introduction Metal matrix composites are the engineered materials produced by mixture of two or more unlike materials, at least one of which is basically a metal.
Wettability is the major problem in fabricating these materials and this is due to the presence of a film oxide at the surface of the aluminium [7].
[2] Manoj singla, D.Deepak Dwivedi, Lakhvir singh, Vikas chawla, Development of Aluminium Based Silicon Carbide Particulate Metal Matrix Composite, Journal of Minerals & Materials Characterization & Engineering, Vol. 8, No.6, , pp 455-467,2009 [3] J.
C, Review – Reinforcement coatings & interfaces in aluminium MMC, Journal of Materials Science, 33,3491-3503,1998
Xu, Casting of SiC Reinforced Metal Matrix Composites, Journal of Materials Processing Technology, 63, 358-363,1997

Materials Science and Engineering A, 2000, 283(1):136-143
Materials Science and Engineering: A, 2012, 559(1)241-249
Journal of Central South University, 2012, 19: 1341-1345
Experimental Thermal and Fluid Science, 2011, 35(7): 1435-1443
International journal of thermal sciences, 2009, 48(9): 1741-1747.