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Liu, Hydroxyapatite nanospindles by biomimetic synthesis with chitosan as template, Materials Science and Technology 23(10) (2007) 1228-1232
Rajendran, Nanohydroxyapatite-chitosan-gelatin polyelectrolyte complex with enhanced mechanical and bioactivity, Materials Science Engineering C Materials Biology Applied 33(6) (2013) 3237-3244
Ivankovic, Preparation and characterization of nano-hydroxyapatite within chitosan matrix, Materials Science Engineering C Materials Biology Applied 33(8) (2013) 4539-4544
Rajendran, Nanohydroxyapatite-chitosan-gelatin polyelectrolyte complex with enhanced mechanical and bioactivity, Materials Science Engineering C Materials Biology Applied 33(6) (2013) 3237-3244
Aubry, Trapping heavy metals by using calcium hydroxyapatite and dielectrophoresis, Journal of Hazard Materials 139(3) (2007a) 461-466

The stress-strain curve of Al-6061 alloy can be simulated by a constitutive model of power-law hardening materials, such as: σ=Kεn [13,14].
Vol. 43 (2008), p. 7438 [3] D.J.Alexander: Journal of Materials Engineering and Performance Vol. 16 (2007), p. 360 [4] R.Manna, N.K.Mukhopadhyay and G.V.S.Sastry: Metallurgical and materials transactions A Vol. 39A (2008), p.1525 [5] H.G..Salem and J.S.Lyons: Journal of Materials Engineering and Performance Vol. 11 (2002), p. 384 [6] P.K.Chaudhury, B.Cherukuri and R.Srinivasan: Materials Science and Engineering A, Vol. 410-411 (2005), p. 316 [7] C.
Horita and T.G.Langdon: Materials Science and Engineering A Vol. 398 (2005), p. 66 [8] C.
Langdon: Materials Science and Engineering A Vol. 497 (2008), p. 206 [9] S.Ferrasse, V.M.Segal, K.T.Hartwig, and R.E.Goforth: Journal of Material Research, Vol.12 (1997), p.1253 [10] D.P.Delo and S.L.Semiatin: Metallurgical and materials transactions A Vol. 30A (1999), p.1391 [11] Y.W.Tham, M.W.Fu, H.H.Hug, M.S.Yong and K.B.Lim: Journal of materials processing technology Vol. 192-193 (2007), p. 121 [12] V.P.Basavaraj,  U.Chakkingal and T.S.P.Kumar: Journal of Materials Processing Technology Vol. 209 (2009), p. 89 [13] F.Kang, J.T.Wang, Y.L.Su and K.N.Xia: J.
Vol. 42 (2007), p.1491 [14] J.K.Kim and W.J.Kim: Journal of materials processing technology Vol.176 (2006), p. 260 [15] J.Wang, J.Chen and J.T.Wang: Journal of Shanghai Jiaotong University(Science) Vol.

The purpose of science is to the benefit of mankind.
References [1] Lu Y X: Chinese Journal of Mechanical Engineering.
Vol. 10(2003), p. 73 (in Chinese) [3] Xie Y B: Chinese Journal of Mechanical Engineering.
(in Chinese) [7] Suh N P, Bell A C and Gossard DC: Journal of Engineering for Industry.
Vol. 3(1983), p. 61 [10] Wen B C, Zhang G Z and Liu H Y: Synthesized Design Theory and Method Faced to Generalized Quality of Products (Science Press, Beijing 2006) (in Chinese) [11] Wen B C, Zhou Z Ch and Han Q K: Chinese Journal of Mechanical Engineering.

In order to improve the mechanistic approach, the milling force coefficients have been determined in [7] from orthogonal cutting data for specified tool-workpiece materials and cutting conditions.
The constants and depend on the workpiece-tool materials.
Armarego: ASME Journal of Manufacturing Science and Engineering Vol 118 (1996), p. 216
Zheng: Journal of Materials Processing Technology Vol 89 (1999), p. 266
Science Vol 42 (2000), p. 1205

The plant-fiber and starch have widly applications in the dishware materials, which can be taken place of the plastic packaging materials, the plant-fiber and starch dishware can eliminate the white pollution problem effectively for the environment.
The present analysis provid the theoretical basis for the applications of the mould for the plant-fiber and starch materials.
Introduction With the development of material technology, a variety of plastic materials make people's life conveniente [1-3].
The plastic materials, come from petroleum, pollute environment seriously which named white pollution.
The plant fiber and starch dishware can be taken place of the plastic packaging materials in which he plant fiber and starch dishware can be biodegraded emerge as the time required, and the plant fiber and starch materials can the white pollution problem for the environment.

The material of impact specimen are aluminium 6061 and low carbon steel 1050 and the properties for this materials are tabulated in Table 1 [7].
Kanno: Journal of Material Science Vol. 39 (2004), p. 3497
Hibbeler: Mechanics of Materials, 7th ed.
[8] Charpy Pendulum Impact Test, International Standard Metallic Materials part 1, 2 and 3.
[10] H.Tsuda, S.Takeda, J.Takahashi and K.Urabe: Journal of Material Science Letter Vol.  19(2000), p. 1

A novel Bi-based photocatalytic material for the degradation of organic pollutants under visible light Nanlin Zhu1,a, Jiajia Shi1,b, Ruisheng Hu1,c, Chun Li1,d 1Key Laboratory of Chemistry and Physics of Rare Earth Materials, School of Chemistry and Chemical Engineering, Inner Mongolia University, Hohhot, 010021, China Corresponding author.
[3] Shengtian Huang, Zhenghua Xiao, et al: Journal of Sichuan University of Science ＆ Engineering(Natural Science Edition) Vol. 26 (2013), p. 1673-1549, in Chinese
John, Wuzong Zhou, et al: Journal of Solid State Chemistry Vol. 72 (1988), p. 126- 130
[7] Junzhen Wang, Xixian Fu, Quhua Yang, et al: Chinese Journal of Applied Chemistry Vol. 19 (2002), p. 483- 485, in Chinese
[9] Tianzeng Ni, Dongdong Luo, Liren Fan, Ying Cui: Journal of South-Central University for Nationalities (Nat.

Study on Corrosion Resistance of N-vinyl Pyrrole Modified Cement Lili Jia1, a, Qi Wang1, b, Peng Song1, c and Yunzhong Shi1, d 1 School of Materials Science and Engineering, University of Jinan, Jinan, China ajiali608927@126.com, b mse_wangq@ujn.edu.cn, c mse_songp@ujn.edu.cn, d shiyunzhong@126.com Keywords: N-vinyl pyrrole; modified cement; Sulphate corrosion Abstract.
Polymer materials have good flexibility, which can effectively fill the cement porosity and improve corrosion resistance when mixed with cement.
In this experiment, N-vinyl pyrrolidone(NVP) was used to improve the sulfate resistance of cement materials.
References [1] Qi Wang, Zhijie Jin, Yuanyuan Meng, et al.: Journal of Building Materials Vol. 12 (2009), p. 617-620
[3] Jia Xiao, Dehua Deng, Wenen Zhang, et al.: Journal of Building Material Vol. 9 (2006), p. 19-23, in Chinese

Hoogstrate, Initial research on the ultra-high pressure water jet up to 700Mpa, Journal of Materials Processing Technology, (2007) 149(1):30-36 [2] M.
Voice: Aspects of material remouval mechanism in plain waterjet milling on gamma titanium aluminide, Journal of Materials Processing Tehnology, 135 (2010) 141–897 [4] J.
MasoodAn investigation of characteristics in abrasive water jet cutting of layered composites, Journal of materials processing technology 1(3): p. 52 - 59 (2007) [8] G.
Minimisation ok kerf tapers in abrasive waterjet machining of alumina ceramics using a compensation technigue, , Journal of Materials Processing Technology 112 (2008) 125-557 [12] G.
Pashby, A technical note on grit embedment following abrasive water-jet milling of a titanium alloy, Journal of Materials Processing Technology 159 (2005) 356–368 [13] I.

Considering the non-uniformity of material characteristics, it is a material failure process analysis numerical method through non-uniformity simulating nonlinear, through continuous medium mechanics simulating non-continuous medium mechanics methods.
Beijing: Science Press, 1988.36
Experimental research on pre-existing cracks in marble under compression[J], Chinese Journal of Geotechnical Engineering, 2004,26(1): 120－124
Studied influence of pre-existing crack geometrical and material properties on crack propagation in rock [J], Chinese Journal of Rock Mechanics and Engineering.2008, 27(9): 1882－1888
Beijing: Science Press, 2003.48－60.