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The Experimental Study on Microbe Corrosion Resistance Performance of Cement Based Composite Material Yingbo Jiang Ningbo Institute of Technology of Zhejiang University, Ningbo, Zhejiang, 315100, China jyb@nit.zju.edu.cn Keywords: Cement Based Composite Material, Microbe Corrosion, performance experiment.
Therefore, it's extraordinary necessary to improve cement based composite materials' performance on resistance to microbial corrosion through doing the research of cement based composite materials' compound modification technology[1].
Age and Mass Loss Diagram Conclusions Through the experiment on microbe corrosion resistance performance of cement based composite material, set compressive strength and mass loss evaluation index.
Acknowledgements This work was financially supported by the Ningbo Natural Science Foundation (2011A610074).
References [1] Yongjing Tian, Jingyun Han：China Water & Wastewater，2002，Vol.18(5):P91-92，In Chinese [2] Xiaowei Zhang, Jingyun Han,Yongjing Tian：Corrosion Science and Protection Technology，2003，Vol.15(4):P234-237，In Chinese [3] Hongzhu He, Shanhou CHEN：Journal of Building Materials，1999，Vol.2(4):314-318，In Chinese

Dixit, Determination of optimum process parameters for wrinkle free products in deep drawing process, Journal of Materials Processing Technology 191 (2007) 51-54
Ketabchi, Investigation into wall wrinkling in deep drawing process of conical cups, Journal of Materials Processing Technology 211 (2011) 1783-1795
Ferran, Experimental and numerical analysis of the cup drawing test for orthotropic metal sheets, Journal of materials processing technology 108 (2000) 78-86
Tabourot, Analysis of a criterion of deep drawing operation capability for thin orthotropic sheets, Journal of Materials Processing Technology 78 (1998) 190-197
International Journal of Mechanical Sciences 115 (2016) 516-531

Hwang, Non-linear analysis of skew thin plate by finite difference Metod, Journal Of Mechanical Science And Technology. 26 (2012), 4, 1127-1132
Kubosek, Comparation of numerical methods for calculation of thin slabs, Advanced Materials Research. 969 (2014) 73-77
Cajka, Using DOProC method in structural reliability assessment, Applied Mechanics and Materials. 300-301 (2013) 860-869
Tvrda, Probability and sensitivity analysis of plate, Applied Mechanics and Materials. 617, (2014) 193-196
Vrablova, Impact loading of concrete slabs, Applied Mechanics and Materials. 617 (2014) 100-103

Natarajan, “Effect of Low Feed Rate FSP on Microstructure and Mechanical Properties of Extruded Cast 2285 Aluminum Alloy”, Journal of Material Science Technology, vol 23, no.5 ( 2007), p. 614-618
Mishra, “Multiple Passes of Friction Stir Processing for the creation of Superplastic 7075 Aluminum”, Materials Science & Engineering 464(2007), p. 255-260 [5] P.Cavaliere, P.P.
De Marco, “Friction Stir Processing of AM60B Magnesium Alloy Sheets”, Materials Science & Engineering A 462 (2007), p. 393-397
Balasubramanian, “Selection of FSW tool pin profile, Shoulder diameter and Material for Joining AZ31B Magnesium alloy – An experimental Approach”, Journal of Materials and Design, Vol 30 (2009), p. 2647- 2656
Omar, “Friction Stir Processing of commercial AZ31 Magnesium alloy”, Journal of Materials Processing Technology, 191 (2007), p. 77-81

Carry out multiple composite test of basalt fiber reinforced concrete composite materials and other materials.
This will provide new programs for choosing materials of high-rise buildings and large span bridges.
Materials and Design, Vol. 42(2012), p. 265-271 [9] Jie Lian, Yongxin Yang, Meng Yang: Industrial construction Vol. 37(2007) p. 8 - l0 [10] Zhaoxian Wu, Haiqing Yuan, Zhean Lu, Xiaochun Fan: Concrete Vol. 30(2009) p. 67-68 [11] Dongqing He, Zhean Lu: Journal of Henan university (natural science edition) Vol. 39(2009) p.320-322 [12] Miao Peng, Haoxiong Huang, Qinghe Liao, Jiachun Wang: Concrete Vol. 33(2012) p. 74-75 [13] Huimin Pan:Journal of silicate bulletin Vol. 28(2009) p. 955-972 [14] Weimin Li, Jinyu Xu: Journal of silicate Vol. 36(2008) p. 476-481 [15] Jinqiu Dong, Yanting Du, Baolian Wen, Lixi Sun, Jiaqing Wang: Industrial construction Vol. 41(2011) p. 638-641 [16] Weimin Li, Jinyu Xu, Liujun Shen, Qing Li: Journal of composite materials Vol. 25(2008) p. 135-142 [17] Jinyu Xu, Feilin Fan, Erlei Bai, Junzhong Liu: Journal of underground space and engineering Vol. 6(2010) p. 1665-1671 [18] Jinyong Yang, Jinyu Xu, Weimin Li: Journal of new building materials
Vol. 35(2008) p. 69-72 [19] Weimin Li, Jinyu Xu: Journal of engineering mechanics Vol. 26(2009) p. 86-91 [20] Qingxin Zhao, Jinqiu Dong, Huimin Pan, Shengwang Hao: Journal of composite materials Vol. 27(2010) p. 120-125 [21] Huajun Zhu.
Journal of building materials technology and applications Vol. 22(2002) p. 8-10 [35] Zhishen Wu, Gang Wu, Xin Wang, Xianji Hu, Jianbiao Jiang: Industrial construction Vol. 39(2009) p. 1-14

Introduction With the development of medical technology, medical absorbable hemostasis materials get extensive attention.
Its coagulation process does not rely on blood coagulation system and is widely used as hemostatic materials[4-5].
Carboxymethyl chitosan compound hemostatic materials were made by joining the Ag+ and nano TiO2
WU: Science of Sericulture, Vol. 35 (2009) No.4, p.929.
Eccleston,Journal Of Pharmaceutical Sciences, Vol. 97 (2008) No.8, p.2892

a Email: alwaysjohnie@yahoo.com Keywords: Functionally Graded Materials; Finite element-Eigenvalue method; Steady state solution Abstract: In this paper, a finite elment-eigenvalue method is formulated to solve the finite element models of time dependent temperature field problems in non-homogeneous materials such as functionally graded materials (FGMs).
Lambros: Numerical calculation of stress intensity factors in Functionally Graded Materials, International Journal of Fracture, Vol. 104 (2000), p. 131-143
Paulino: Mixed-mode crack propagation in Functionally Graded Materials, Materials Science Forum,Vol. 492-493 (2005), p. 409-414
Yan: Modeling and processing of Functionally Graded Materials for rapid prototyping, Journal of Materials Processing Technology,Vol. 146, issue 3 (March) (2004), p. 396-402
Jin: Some Notes on the Linear Viscoelasticity of Functionally Graded Materials, SAGE Journal of Mathematics and Mechanics of Solids, Vol. 11, number 2 (2006), p. 216224

Liner materials against time to stabilize EFPs Fig. 3.
The density change of the liner materials depends on the properties of the materials including their reference density, hardness or inter-atomic structure.
Maximum density change in liner materials Fig. 9.
Maximum temperature change in liner materials Fig. 10.
Murr, Hydrocode and micro-structural analysis of explosively formed penetrators, journal of material science, 37(2):, 2002, p-233.

The dental ceramic materials having health care function was preparation.
The concrete operation process : At first ,it make rare earth material, far infrared emission material, surface energy adjust material, flux material mixed and ball mill 5-10 hours, then add tourmaline powder to ball mill 10-20 hours , using precipitation method prepared bioactive functional powder, after that make functional powder mixed with dental materials, ball mill about 20 hours, after vacuum stirring extraction for 30 minutes, get the high quality ceramic slurry with far infrared emission properties.
Materials Science and Engineering A 397 (2005) 314–321 [7] Emre Özkol, Wen Zhang, Jörg Ebert, Rainer Telle.
Solid Freeform Fabrication of Biological Materials[D].
The Journal of Prosthetic Dentistry.

Acknowledgments This research was supported by grants of Shenzhen Key Laboratory of Ultrahigh Refractive Structural Materials, Guangdong Science and Technology Plan (No. 2011A091103003), and Shenzhen Innovative R&D Team Program (Peacock Plan) (No.
Yu: Journal of Tianjin Normal University, Natural Sciences Vol. 27[2] (2007), p. 15 (in Chinese)
Shi: Journal of Functional Materials and Devices Vol. 13[1] (2007), p. 54 (in Chinese)
Ma: Materials Engineering Vol. 2 (2008), p. 54 (in Chinese)
Huang: Chinese Journal of Radio Science Vol. 24[6] (2009), p. 1104.