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Comparison of Rheological Behavior of Three Gel-Type Vehicles for Printing Ink Xu Jing1,a, Zhang Shenjun1,b,Liu Xinping1,c,Chen Qinghua1,d** , Qian Qingrong1,e, Huang Baoquan1,f** 1Environmental Science and Engineers College, Fujian Normal University; Fuzhou350007, Fujian, China axujing210@qq.com, b465804235@qq.com, clxpwkm@qq.com, dcqhuar@fjnu.edu.cn, eqrqian@fjnu.edu.cn, fqbh811@sina.com Keywords: Rheological behaviour; gel-type vehicle; ink Abstract.
Acknowledgements This work was financially supported by the Fujian Province Natural Science Foundation (2012J01198) and the Key Project of the Department of Science and Technology of Fujian Province (2012H0018).
Materials processing technology. 2008, 197: 284- 291
Polymer materials science and engineering. 2012,28(11), in press
Biochemical Engineering Journal. 2011, 55(2): 73-81.

When the material is peeled off by layer-by-layer, some of peeled atoms and radicals deposit against the working direction of the focused ion beam.
a) Transition region 1 Transition region 2 Material re-deposition region b) X Material re-deposition region Transition region 2 Transition region 1 c) Y Fig.3: Measuring the depth of the nanostep in X and Y direction.
Acknowledgement The authors would like to thank the financial supports by National Natural Science Foundation of China (No.90923001 and No.51175418), 111 Program(No.B12016)，Program for New Century Excellent Talents in University (No.93JXDW02000006), Natural Science Foundation of Shaanxi Province (No.2011JQ7004), Program of Chang Jiang Scholars and Innovative Research Team in University (No.IRT1033), the Fundamental Research Funds for the Central Universities (No.xjj20100063, No.2011jdgz09, No.2011jdhz23, No.xjj2011068 ), the fund of the State Key Laboratory of Precision Measuring Technology and Instruments (Tianjin University and Tsinghua University) and the State Key Laboratory of Digital Manufacturing Equipment & Technology (Huazhong University of Science and Technology).
Fabrication of Complicated Micronano Structures Using Focused Ion Beam Milling Method. submitted to Journal of Tianjin University.
Strategy for focused ion beam compound material removal for circuit editing. submitted to American Vacuum Society 011207-1, (2012)

Acknowledgements This project is supported by national natural science foundation of China (59875063, 50345022, 50675149) and provincial natural science foundation of Shanxi (981046, 20041058) References [1] Yang, S.C.
Key Engineering Materials, Vols.259-260(2004), p.549-552
Key Engineering Materials, Vols.259-260(2004), p.544-548
Journal of ShanDong University(Engineering Science), Vols.34(2004) Supp
Entironment Science, Vols. 26(2005), p.33-37

Effect of Chlorine Dioxide on Decoloration of Reactive Dye Binsong Wang 1,2,a , Lu Jin1,b， Fuyi Cui 2,c , Jie Zhang 3,d* 1 School of Chemistry and Materials Science，Heilongjiang University，Harbin 150080，China 2School of Municipal and Environmental Engineering, Harbin Institute of Technology, Harbin 150090, China 3 School of Life Science ,Northeast Forestry University, Harbin 150040,China a609291321@qq.com b31753110@qq.com c cuifuyi@hit.com d875817856@qq.com e 592943878@qq.com Keywords: Chlorine dioxide; decolorization; dye Abstract: As an important oxidants, Chlorine dioxide was more useful in the decolorization of Reactive Red KE-3B, Reactive Blue KN-R, Reactive Red X-3B and Reactive Blue X-BR.
Acknowledgments This work was supported by Youth Science and Technology Innovation Fund of Harbin (RC2009QN015018), Key Laboratory of   Chemical Engineering Process＆Technology for High-efficiency Conversion(College of Heilongjiang Province ), Scientific Foundation of Heilongjiang Office of Education（2008-11531270）, and Heilongjiang Postdoctoral Science-Research Foundation(LBH-Q09184) .
Journal of Hazardous Materials,30 ( 2006), 190-196

Study on the safety design of main arm mechanism in slag pot carrier Rui Guo 1, a, Jingyi Zhao 2, b, Decai Han 3, c, Yongchang Wang 4, d 1, 2, 4 Hebei Province key laboratory of heavy machinery fluid power transmission and control, Ministry of education key laboratory of Advanced forging technology and science, Qinhuangdao Hebei 066004, China 3Environmental Management College of China, Qinhuangdao Hebei 066004, China aguorui@ysu.edu.cn, bzjy@ysu.edu.cn, cdchan@ysu.edu.cn, dycwang@ysu.edu.cn Keywords: slag pot carrier; mechanism design; Virtual technology; Simulation and Optimization; Experimental study Abstract.
(4) After the materials of a slideway and a pin of the slag ladle are confirmed, the sliding friction coefficient between the two is a fixed constant.
Low carbon steel Q345 is selected. so the parameters of materials are conducted elastic modulus 2.1×105Mpa, poisson ratio, density.
Acknowledgements Supported by the National Natural Science Foundation of China (51175448) Supported by Natural Science Foundation of Hebei Province of China (E2012203071) Supported by the Open Foudnation of The State Key Lab of Fluid Power Transmission and Control (GZKF-201103) Supported by Science and Technology Research and Development projects of Qinhuangdao (201001A115) References [1] REN.
“developedment of articulated slag pot carrier”, Journal of Hubei University of Technology, 23 (2), pp. 32-34, 2008 [2] ZHAO.

Influence of pH on the electrochemical behavior of 00Cr15Ni7Mo2Cu2 supermartensitic stainless steel in 3.5% NaCl solutions Jiaqun Rui1,a,Jun Li1,b, Hudai Sun1,c, Kunyu Zhao1,d,Zhidong Li1,e, Xiaochen Han1,f, Qilong Yong2,h and Jie Su2,i 1 College of Materials Science and Engineering, Kunming University of Science and Technology,Kunming 650093,Yunnan,China 2 Institute of Structural Materials, Central Iron and Steel Research Institute, Beijing 100081,China arjiaqun@163.com,bljwj981@126.com,csunlight100@126.com, dkyzhaoy@yahoo.com.cn(corresponding author),eLzd-kmust@126.com, f271544044@qq.com ,hyongql@126.com,isujie@163.com Keywords: Supermartensitic stainless steel, Open circuit potential, Cyclic potentiodynamic curves, Electrochemical impedance spectra Abstract.
Welding journal. 86 (2007) 125 -134
Corrosion .Science. 49 (2007) 2198–2209
Science. 53 (2011) 575–581.

Fang Jiangsu Provincial Key Laboratory of Advanced Welding Technology School of Materials Science and Engineering, Jiangsu University of Science and Technology Zhenjiang City, Jiangsu 212003, P.R.
To increase further the arcing erosion resistant property of electrode material, several beneficial attempts were addressed.
At the pulse frequency of 60 kHz, a greater pulse power of arc caused the generation of more oxide and nitride on the hafnium electrode, and simultaneously intensified the vaporization of electrode material at cathode spots, which finally led to a small rise in the erosion depth and weight loss of the electrode.
Acknowledgements The authors wish to acknowledge gratefully the financial supports from the National Natural Science Foundation of China (Grant No. 50675091) and the Natural Science Research Plan of Jiangsu Provincial Universities (Grant No. 06KJA430006).
Wu: Journal of Tianjin University, Vol. 3 (1993), p.92-97 [4] K.

Introduction Woven liner spherical plain bearing is one of spherical plain bearing which paste a layer of woven material in the inner surface of outer ring, forming a spherical contact pair with inner rings.
Import material parameters from Table. 1(a) and (b) to the model [7].
Acknowledgements The authors are grateful to the National Natural Science Foundation of China (Grant No. 51275155), Outstanding Youth Fund Projects of Henan Province (No. 114100510002), and Innovation and Research Team of Science and Technology in Universities in Henan Province (No. 13IRTSTHN025).
A study on the effect of the clearance on the contact stresses and kinematics of polymeric composite journal bearings under reciprocating sliding conditions[J].
Bei Jing: science press, 2012.

Our previous studies indicated that this hydrophobic material has serious pollution on membranes.
In this study, the hybrid hydrophilic materials combined with the hydrophobic membrane could reduce the membrane fouling and extend the reaching time of membrane surface pollution adsorption equilibrium, which improve the membrane performance effectively.
Membrane Science and Technology.
Membrane Science and Technology.
Journal of Membrane Science.

Research on Active Carbon adsorption for the Amoxicillin wastewater Quanli Feng1, a, Xueqian Wang2,b ,Yu Jia1,c, Ping Ning2,d* 1 Faculty of Chemical Engineering, Kunming University of Science and Technology, Kunming, 650224, China 2 Faculty of Environmental Science and Engineering, Kunming University of Science and Technology, Kunming, 650093, China afengquanli0871@yahoo.com.cn,bwxqian3000@yahoo.com.cn,cjyu@sina.com, d*ningping58@sina.com(Corresponding author) Keywords: amoxicillin production wastewater， active carbon， adsorption.
Materials.
Depending on the source of raw materials, manufacturing methods, appearance, application and materials, activated carbon can be divided into many forms.
Acknowledgments This work was supported by the National Natural Science Foundation of China (No. 51268021, No.
Advanced Materials Research, 396-398(2012), p 1819-1824