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It is filled with particulate or other debris-shaped electrode materials between electrodes of the traditional two-dimensional electrolyzer, charging the surface of the packing material to become the new pole, so the electrochemical reaction occurs in the material surface between the electrodes of the traditional two-dimensional electrolyzer.
Journal of Wuhan University of Technology. 26(2004) 19-21
Treatment of dyestuffs wastewater with two and three-dimension electrode methods,Journal of Benjing University of Chemical Technology .29(2002) 34-37
[11] National Environmental Protection Agency water and wastewater monitoring and analysis methods Editorial Board,Water and wastewater monitoring and analysis methods,China Environmental Science Press,; Beijing ,2002
Shenglu,Applied Electrochemistry, Huazhong University of Science and Technology Press, Wuhan,1994

It is a popular piezoelectric material in micro electro mechanical systems (MEMS).
µ is the Poisson's ratio of the diaphragm material.
Acknowledgement This research is supported by National Natural Science Foundation of China (NSFC) project with grant No. 60927005.
Journal of Sensors and Actuators (1993); Vol (37-38): p.82
Journal of Sensors Actuators (1990); Vol (21-23): p.146

The Thermodynamics Calculation of Mg-Zn Alloy Tianmo Liu1, 2, a, Hongyi Zhou and Fusheng Pan1, 2, b 1 Chongqing Engineering Research Center for Magnesium Alloys, Chongqing 400044, China 2 College of Material Science and Engineering, Chongqing University, Chongqing 400044, China a tmliu@cqu.edu.cn; b fspan@cqu.edu.cn Key words: Mg-Zn alloy; activity; thermodynamics Abstract: In the present work Miedema model has been developed, and the formation enthalpy of Mg-Zn alloys and the activity curve of Zn in Mg-Zn alloy at 1000K have been calculated according to the Miedema model.
Acknowledgement: The present work was supported by Chongqing Science & Technology Commission References [1] Zhenhua Chen, Magnesium Alloy, Chemical Industry Press, Beijing, 2004
Journal of Materials and Metallurgy. 1(2003)166-170 [4] Ouyang Yifang, Zhang Bangwei, etc.
Rare Metal Materials and Engineering. 24(1995) 32-36 [5] A.P.Goncalves, M.Almeida.
The Chinese Journal of Nonferrous Metals. 9(1999) 381-384 [10] Ding Xueyong, Wang Wenzhong.

Liner material is made of pure copper, which density is 8.96g/cm3.
Shell material is 45# steel, which density is 7.83g/cm3.
International Journal of Impact Engineering. 34(7) (2007). 1147-1162
J. of Frontiers of Computer Science and Technology. 2(3) (2008). 248-259
International Journal of Impact Engineering. 37(4) (2010). 414-424.

A comparative study of Cr-tolerance and removal capacity of different strains Lihua LIANG1, a, Daidi FAN2 , Liu YANG3, Pei MA2, Xiaoli ZHU1 1College of Urban and Environmental Science, Northwest University, Xi’an, China 2School of Chemical Engineering, Northwest University, Xi’an, China 3School of Energy and Power Engineering, Xi’an JiaoTong Universtiy, Xi’an, China alianglihua06@tsinghua.org.cn Keywords: Cr(VI) tolerance; removal efficency; bacterial strains Abstract.
Materials and Methods Isolation and Screening of Cr(VI) resistant bacteria.
Acknowledgements This work was financially supported by the natural science special project of education department in Shaanxi Province (09JK760).
Vol. 95(2007), p. 1128 [2] Xuejun Quan , Huaiqin Tan and Youcai Zhao:Journal of Hazardous Materials.
Kumar: Journal of Hazardous Materials.

Thermoregulation acts through heat absorption or release by the mutual transformation of Hydrocarbon wax, a thermosensitive material of phase change, in the form of calorific potential during its functioning of heat absorption, storage and release[1-8].
Experimentation Preparation of Sample Sample Raw Material.
References [1]Yizhen Zhan, Ping Zhu, Xue Zhao, etc.: Application Status of Textile with Phase Change & Temperature Regulating Character ［J］Textile Dyeing and Finishing journal, Vol 29(7) (2007), p.5-11 [2] Dongxia Zhang, Fengzhi Guo: Application of Phase Change Material in Temperature Regulating Costum [J] Knitting Industries, Vol 3 (2007), p.28-31 [3]Jiarui Dong: Features and Application of Outlast Air Conditioning Fiber［J］, Knitting Industries, Vol 3 (2007), p.32-34 [4]Haiping Dou, Xiaowei Jiang, Ling Wang, etc.: Development of A Kind of New Intelligent Shell Fabric of Outlast Fiber ［J］, Shanghai Textile Science & Technology , Vol 34(10) (2006), p.57-58 [5]Zhaotang Song: Temperature Regulating Fiber and Its Textile ［J］, Textile Auxiliaries, Vol 21(6) (2004), p.1-4 [6]Suling Wang, Zhihui Zhang: Key Points of Production of Outlast Fiber Textile［J］, Cotton Textile Technology, Vol 36(4) (2008), p.251-252 [7] China Cotton Textile Association, China Textile Information Center: Out-last
keyword=outlast Air Conditioning Fiber, 2007-04-17 [8] Xiang Wang: Audiga (Heat Sensitive Material) Shell Fabric for Moon Landing Air Conditioning Fiber Filled A Domestic Gap in China ［J］, Jiangsu Textile Vol 7 (2005) [9]Mu Yao: Textile Materials [M].Beijing: China Textile & Apparel Press，2009, p.238 [10]Chongwen Yu, Yingjian Chang, Pihua Shen: Study of Strength & Extension Behavior of Bi- component Fiber Blending Yarn [J], Journal of Donghua University, Natural Sciences, Vol 01 (2002) [11] Chongwen Yu, Jun Wang, Xinhou Wang, etc.: Design Optimization of Process Parameter [M].

Introduction Phyllostachys pubescens, which was a superior resources, was often used as the raw materials of furniture, flooring, doors, windows and beams, and so on[1].
Materials and Methods Materials.
Acknowledgment This work was financially supported by the National Natural Science Fund of China (31070577), supported by Hunan Provincial Natural Science Foundation of China(Name:Mechanism of Self-Plasticizing and Self-bonding between Bamboo Cell Wall), Plan Projects of Hunan Province (No.2009GK3142; No.2010NK3039), A Project Supported by Scientific Research Fund of Hunan Provincial Education Department(No.10A131; No.10C1326), and Youth Scientific Research Fundation of Central South University of Forestry and Technology(2009044B).
Journal of Bamboo Research, Vol.29 A1(201):1-6  [2] ZHANG Qi sheng, GUAN Ming jie, JI Wen lan.
Journal of Nanjing Forestry Unversity, Vol.26 A2(2002):7-11

Experimental program Materials.
Journal of Testing and Evaluation, Vol. 27 (1999), p. 380-387
Construction and Building Materials, Vol. 18 (2004), p. 669-673
Construction and Building Materials, Vol. 11 (1997), p. 373-382
ACI Structure Journal, Vol. 99 (2002), p. 248-56

Synthesis and Photophysical Property of Polyion Complex Micelle Incorporating Phthalocyanine Zinc(II) Bearing Benzyl Ether Dendritic Substituents with Nitro-terminal Group Xiaodong ZHU1,a, Zhenzhen CHEN2,Keqin WU2, Junri WEN2, Xiongwei WANG2 and Yiru PENG2,b* 1,2College of Chemistry and Materials Science, Fujian Provincial Key Laboratory of Polymer Materials, Fujian Normal University, Fuzhou 350007,China a1053474738@qq.com, byirupeng@fjnu.edu.cn Corresponding author: Yiru PENG Keywords: phthalocyanines Zinc(II); polymeric micelles; dendritic phthalocyanine Abstract: A new phthalocyanine Zinc(II) bearing benzyl ether dendritic substituents with nitro-terminal group: tetra-{3,5-[di-(4-nitro benzyloxy) benzyloxy]} Phthalocyanine Zinc(II) (ZnPc(NO2)8), was synthesis and characterized by IR, 1HNMR, MALDI-TOF-MS and UV/Vis.
Materials and Measurement All reactions were carried out under nitrogen atmosphere in dried solvents.
Acknowledgments This study was supported by the National Natural Science Foundation of China (No. 21274021).
Journal of Controlled Release, 2006 (113) 73–79
Journal of Medicinal Chemistry, 2008, Vol. 51, No. 8

The experimental materials and methods The experimental materials The sludge used in the experiment is taken from a residential sewage treatment station and a district in straw farmland.
Improvements in the activated sludge samples BCR Method of Heavy Metals Analysis [J], Journal of Analysis Laboratory 2007, 12 Volume 26 Supplement [3] Quevauviller P, vadderSloot HA, Ure A.
Improvements in the activated sludge samples BCR Method of Heavy Metals Analysis [J], Journal of Analysis Laboratory 2007,12 Volume 26 Supplement [6] Guoxue Li, Fusuo Zhang.
Beijing: China Environmental Science Press, 2003, 80 - 82 [8] YuansongWei, ChengqiangLi,Yaobo Pan.
Environmental Science, 2003,23