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.: Equal channel angular pressing of magnesium alloy AZ31 Materials science and engineering A Vol. 410-411 (2005), pp. 324-317 [2] Z.
Hitchcock: Solidification behaviour under intensive forced convection, Materials science and engineering A Vol. 413-414 (2005), pp. 229-235 [3] Sean R.
Agnew and İzgür Duygulu: Plastic anisotropy and the role of non-basal slip in magnesium alloy AZ31B, International Journal of Plasticity Vol. 21 (2005), pp. 1161-1193 [4] M.R.
Atwell: Influence of grain size on the compressive deformation of wrought Mg-3Al-1Zn, Acta Materialia Vol. 52 (2004), pp. 5093-5103 [5] J.C.Tan, M.J.Tan: Dynamic continuous recrystallization characteristics in two stage deformation of Mg-3Al-1Zn alloy sheet, Materials science and engineering A Vol. 339 (2003), pp. 124~132 a b

Acknowledgements This work was financially supported by the National Natural Science Foundation of China (Nos. 51275028), the Natural Science Foundation of Education Department of Liaoning Province (Nos.
L2014246) and the Natural Science Foundation of Liaoning University of Technology (Nos.
AIAA Journal,Vol.3 May 1965(3):961-962 [3] Paz Mario.
Advanced Materials Research,2011,305:192-197 [9] Huiqun Yuan, Liang Zhang, Lin Song.
Applied Mechanics and Materials,2012,141:129-133

Pan 1, b，X.B.Wang 1, b, J.B.Niu 3, c , M.Liu 3, c 1 Laboratory of Advanced Materials, Department of Materials Science and Engineering, Tsinghua University, Beijing 100084, PR China 2 Chemistry Department of Xinjiang University, Wulumuqi 830046, PR China 3 Institute of Microelectronics of Chinese Academy of Sciences, Beijing 100029, PR China a ldm02@mails.tsinghua.edu.cn, bpanf@mail.tsinghua.edu.cn, cniujiebin@163.com Keywords: Al, Zr, LiNbO3, films, texture, underlayer, resistivity Abstract.
Acknowledges The authors are grateful to the National high-technology project of china (No.2002AA325040), National Natural Science foundation of China (No. 50325105, 50371040) and the key grant of Chinese Ministry of Education (No.0303) for supporting this study.
Matsuda: IEEE IEEE Ultrasonic Symposium (1995), p.383 [13] Duk-Seo Park and Young-Ho Kim: Journal Electronic Materials Vol. 31(2002), p. 1009 [14] N.

Preparation of Copper Oxide Loaded Activated Carbon by Waste Sawdust for Acid Red GR Wastewater Treatment BoQuan Jiang1,a , ZhengQiang Xiao 2,b 1Nanchang University College of Science and Technology, Nanchang, Jiangxi,330029, P.R.China 2Jiangxi Academy of Sciences, Nanchang, Jiangxi, 330029, P.R.
Therefore, unceasing research and development of novel material and technology to treat the PDW has great significance.
References [1] Hong Zhou and Hai Lin: China Non-metallic Mining Industry Herald Issue1(2007), p.61 [2] Qigen Xiao and Qiyun Luo, in Applications of activated carbon( in Chinese), edited by East China university of science and technology press, Shanghai, China (2002) [3] Tianshun Song and Limin Zhang: Ion Exchange and Adsorption Vol. 22（2006), p. 208 [4] Dantas T.L.P. and Mendonca V.P.: Chemical Engineering Journal Vol. 118 (2006),p. 77 [5] Liou Rey-May and Chen Shih-Hsiung: J.
Hazardous Materials Vol.172(2009),p. 489 [6] Qinghua Zhao, Changying Ye and Xuejun Quan: Industrial Water Treatment Vol.29（2009）, p.14 [7] Faria P.C.C., Orfao J.J.M. and Pereira M.F.R.: Environmental Vol. 88 (2009),p.341 [8] Mohan Dinesh and Singh Kunwar P. : J.
Hazardous materials Vol.152 (2008),p.1045

Effects of Glycine on the Properties of the Long Afterglow Phosphor CaAl2O4:Eu2+, Nd3+ Prepared by Combustion Synthesis Xiaoxia Liu2, b, Hailian Qin1, a, Guihua Peng1, a and Zhenhua Liang1, a 1Key Laboratory for the Chemistry and Molecular Engineering of Medicinal Resources (Ministry of Education of China), School of Chemistry & Chemical Engineering of Guangxi Normal University, Guilin, Guangxi, 541004, China 2College of Arts & Science of Jianghan University, No.9 Boxue Road, Economic and Technological Development Zone, Wuhan, Hubei, 430056, China apengguihua164@163.com, bxiaxiaoliu@126.com Keywords: Long afterglow, Glycine, Combustion synthesis, CaAl2O4 Abstract.
Experimental The raw materials were Eu2O3(4N), Nd2O3(3N), Al(NO3)3·9H2O(A.R), Ca(NO3)2·4H2O(A.R), (NH2)2CO(A.R), HBO3(A.R), absolute ethanol(A.R).
Acknowledgements The authors are grateful for the support of the 2010 scientific research project of Wuhan Education Bureau (No. 2010152), Guangxi Natural Science Foundation (No. 0991099) and Guangxi Science Foundation Project of Guangxi (No. 2011GXNSFB018007).
(In Chinese) [6] Zhiguo Xiao, Xixian Luo, and Wei Xia: Journal of the Chinese Rare Earth Society, 19 (6) (2001): p. 561 (In Chinese) [7] Cheng kang Chang, Jie Xue, and Ling Jiang: Materials Chemistry and Physics, 98 (2006): p.509 [8] Xiaorui Liu, Yuqi Zhang, Ruijun Zhang: J.
Materials review, 21(5) (2007): p.319-320 (In Chinese) [9] Meng X.G., Wang Y.S., Sun L., et al.: Chin.

Research on Temperature Compensation Method of Quartz Flexible Accelerometer Senlin Mu1, a, Fubin Chen2, b, Jingmin Gao 3, c and Zhizhong Wu4, d 1 Beijing Information Science and Technology University, China 2Beijing Information Science and Technology University, China 3Beijing Information Science and Technology University, China 4China Academy of Space Technology 502, China amusenlin@yeah.net, bgaojm_biti@163.com, cchenfubin@bistu.edu.cn, dwzzmail@139.com Keywords: the accelerometer; partial value; scaling factor; temperature compensation.
The first method is that the development of a temperature insensitive material improves the quartz flexible accelerometer.
The external cover is made of heat insulation materials, and it is used to achieve thermal isolation of the external environment.
The internal cover is made of high thermal conductivity materials; it is used to achieve inner heat uniform.
Journal of Transducer Technology.

Among the lightweight materials considered, Advanced and Ultra High Strength Steels (WELDOX 900 & OPTIM 960) are considered for crane boom components to attain lightweight construction.
International Conference on Manufacturing Science and Engineering.
International Journal of Mechanical Sciences, Vol. 51 (2009), p. 732-740
Materials and Manufacturing Processes Vol. 24 (2009), p. 375–383
Materials and Design Vol. 31 (2010), p. 267-277.

The Effect of Two-Step Aging on the Electrical Properties of 7075 Aluminum Alloy Jianhua Zhong1, a,Yinping Xiao1,b, Hongbin Zhu1,cand Kai Feng1,d 1Jiangxi University of Science of Technology, Materials and Chemical Engineering,Gan Zhou Jiangxi ,341000,China azq8613@163.com, bxyp063@126.com, c2dong321@2008.sina.com dfegnkai02@126.com Keywords: 7075 Aluminum Alloy; Extrusion; Electrical Conductivity; Two-Step Aging Abstract: This experiment has taken a research on the conductivity changes of 7075 aluminum alloy after being extruded and two-step aging treatment,and has done a analysis on the theory and rules of the impact on conductivity performance under the two-step aging treatment.Compared to cast aluminum alloy and extruded aluminum alloy without two-step aging process,the experiment showed that extruded alloy with two-step aging treatment has the highest conductivity about 44% IACS, 33.3% more than under casting condition and 22.2% more than only being extruded.
Introduction 7075 aluminum alloy belongs to Al-Zn-Mg-Cu super-hard aluminum series.With the advantage of high strength,and less weight,the aluminum alloy has been widely used in aviation industry until today[1,2].The rapid development of aviation industry has posed an increasingly high demand for the comprehensive performance of materials,and in particular for the performance of electrical conductivity and thermal conductivity [3].Based on the research which was on thermal performance of materials by our pioneers,we have started the research on the electrical conductivity performance of 7075 aluminum alloy under extrusion and two-step aging treatment to looking for ways to increase conductivity.so as to provide the basis theoretically and experimentally for the futher and better exploration and ultilization of 7075 aluminum alloy.
The Effect of the Surface Treating and High-TemperatureAging on the Strength and SCC Susceptibilityof 7075 Aluminum Alloy[J],Journal of Materials Engineering and Performance,2010 (6) : 852-859 [3] Li Hongying, Zheng Ziqiao :Performance dynamic aviation aluminum structural materials research.Hunan Nonferrous Metals,200,17(4):34-38.
[4] Zhao Pin:Materials science.
[7] Chen Xiaoming, Song Renguo,He Yuan , Zhao Jian and Li Hongxia.Effects of Double-Peak Aging on Microstructure and Properties of 7075 Alloy,Aerospace Materials &Technology,2009, 39,(6):23-25 .

The raw materials and mix proportions are shown in Tab. 1.
GGBS has a hysteresis effect on the hydration of cementitious materials.
Plastic Shrinkage Cracking in Concrete Materials Influence of Fly Ash and Fibers.
ACI Materials Journal.2001, 98 (6):485-464 [2] Liu, Yan.
Applied Mechanics and Materials.2013, v 357-360, p 1520-1523

To design such structure, one has to resort fundamental principles and take into account progress in analytical and computational approaches as well as in material science and technology.
Through such analysis and numerical simulation, effort is devoted to arrive at optimum configuration in terms of loading, structural dimensions, and material properties, among others.
(4) where t = thickness of plate, v = Poisson ratio of material, and E is the modulus of elasticity.
The next scheme is to utilize the developed code as well as ANSYSTM for parametric study of flat plate as a generic element of structure subject to dynamic and impact loading, and define some performance measure related to load characteristics, geometrical characteristics and constraints, as well as material properties.
C.L., Rajyalakshmi M. and Inala R., Static analysis of an isotropic rectangular plate using finite element analysis (FEA), Journal of Mechanical Engineering Research Vol. 4(4), pp. 148-162, April 2012 , http://www.academicjournals.org/jmer [6] Ventsel, Eduard and Krauthammer, Theodor, Thin Plates and Shells - Theory, Analysis, and Applications, Marcel Dekker, Inc.