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Film Thickness-Dependent Microstructures and Dielectric properties of Pb(Zr,Ti)O3 Thick Films by Sol-Gel Processing Yating Zhang, Xiujian chou*, Wenping Geng, Ying Tian, Jijun Xiong, Tao Guo Key Laboratory of Instrumentation Science & Dynamic Measurement（North University of China）, Ministry of Education, National Key Laboratory of Science and Technology on Electronic Test and Measurement, Xueyuan Road 3, Taiyuan, Shanxi Province, 030051, China * Corresponding author: chouxiujian@nuc.edu.cn Keywords: Lead zirconate titanate, Sol-gel process, Dielectric properties Abstract.
[2] Zhu Chen, Chentao Yang, Bo Li, Mingxia Sun, Bangchao Yang, Journal of Crystal Growth 285 (2005) 627

Analysis of the stones of Thousand Hand Buddhism by the combination of on-site and laboratory techniques Xingling Tian (1,2,a), Naisheng (2, b), Zhiguo zhang(2,c), Yuan Hu (2,d), Changfa Zhan（2,e） 1 Beijing University of Chemical Technology, Beijing, China 2 Research Institute of Scientific Protection Technology,Chinese Academy of Culture Heritage, 3 State Key Laboratory of Powder Metallurgy, Central South University atiantian1278@sina.com,bgaofenga@sina.com, c xiao1978cn@yahoo.com.cn,dhuyuan0426@126.com Keywords: stone; on site technique; erosion Abstract.
[7] Zhongmin Ding, Laiming Wu, Fangong Kong, Cultural Relics protection technology research of X-ray photography technology, Sciences of Conservation and Archaeology, 2006, 18(1), 38-46. [8] Junchang Yang, Rufen Han, applications technology of X light in cultural relics and archaeological research, Sciences of Conservation and Archaeology, 2001, 13(1), 55-61. [9] Almeida E.
JAnal Appl Prolysis, 2000, 556: 167-178. [13] Xiaoqi Wang, Changsui Wang, Jinglong Yang etc, FengHui grave fresco high-resolution electron microscopy and pigment of Raman spectrum analysis[J].

Tian: Sci.
Yang: The Forming Technology and Simulation of Parts with Cross Wedge Rolling (Metallurgy Industry Press, Beijing 2004).

[3] Gongxing Wu, Jin Zou, Hanbin Sun and Shoudong Tian: Journal of Dalian Maritime University Vol. 36(2010), p. 9–13,in Chinese
[7] Xingle Jia and Yansheng Yang:Ship Motion Mathematical Model (Dalian Maritime University Press, China 1999),in Chinese.

A Study on the Antibacterial Property of Fabrics with Silver-plated Fibers Hongxia Zhang1,a, Yan Lu 1,b, Chenyan Zhu1,c, Wei Tian 1,d,Yanqing Li1,e 1Key Laboratory of Advanced Textile Materials and Manufacturing Technology, Ministry of Education, Zhejiang Sci-Tech University, Hangzhou, Zhejiang 310018, China ahongxiazhang8@126.com, bluyan611@163.com,ccyzhu@zstu.edu.cn,dtianwei_ zstu @126.com, eenchinglee@163.com Key words: silver-plated fiber; antibacterial property; bacterial inhibition rate.
References [1] Ye Hui, Li Dongpin and Xia Zhiling :China Textile Leader (2006), p.54 [2] Qiang qiang, Ni Weihong, Xin wei,et al: Journal of Wuhan University of Science and Technology Vol. 30(2007), p.121 [3] Xin Yanjun, Song Yang, Ji Youmei and Dai Jingjing: Journal of Textile Research Vol. 29(2008), p.127 [4] Wang Xiaocou and Xu Shuiling: Cotton Textile Technology Vol.36(2008), p.126

Tian, Y.P.
Yang: Heat Transfer, second ed., Higher Education Press, New Beijing, 2010.

Influence of Layer Thickness and Continuous Carbon Fiber on the Mechanical Property of 3D Printed Polyamide Tian Lan1*, Lichao Dong1, Zhongyuan Lu1, Shifeng Guo1, Hao Zhang1, Yuchen Pei1 1Aerospace Institute of Advanced Materials & Processing Technology, 100081, Beijing, CHINA *lantiansky2016@163.com Keywords: Carbon fiber reinforced composites; 3D printing; Continuous carbon fiber; Polyamide; Mechanical property Abstract. 3D printed carbon fiber reinforced composites (CFRP) have shown great potential in lightweight application.
[5] Li, Q., Zhao, W., Li, Y., Yang, W. & Wang, G.

Study on the Harmless Treatment Method for Acetophenone in Waste Effluent from the Laboratory Zhongqiang Zhang a , Naiwen Zhang b, Linan Tian c , and Chunxue Li d College of Chemical Engineering, HengShui University, HeBei Province, HengShui City, 053000, P.R.
Yang, and X.Z.Chen, Chinese Journal of Organic Chemistry, 2005, 25(12):1548-1551 [13] G.D.

Preparation, characterization, and Surface-Enhanced Raman Spectroscopy activity of Spherical α-Fe2O3/Ag core/shell Nanoparticles Chunrong Wang1,a, Zhufa Zhou1, 2, b, Yanjie Li 1,c, Ranran Tian 1,d and Xiaochun Dai1,e 1College of Chemistry, Chemical Engineering and Materials Science, Soochow University, Suzhou 215123, PR China 2 National Engineering Laboratory of Modern Silk, Soochow University, Suzhou 215123, PR China aemail: bingdanxinzi@hotmail.com, be-mail: zhouzhufa@suda.edu.cn, cemail: LYJ_03722_17@163.com, demail: ziyanluebo@163.com, eemail: daixiaochun86@126.com, Key words: spherical α-Fe2O3/Ag; core/shell nanoparticles; the seeding method; APS; SERS; Abstract: Spherical α-Fe2O3/Ag core/shell nanoparticles were prepared by reducing Ag(NH3)2+ with formaldehyde using the seeding method. 3- Aminopropyltriethoxysilane (APS) acts as a “bridge” to link between α-Fe2O3 core and Ag shell.
Alloys Compd, 449 (2008), p. 232 [8] J F Li, Z L Yang, B Ren, G K Liu, P P Fang, Y X Jiang, D Y Wu, Z Q Tian, Langmuir, 22 (2006), p. 10372 [9] I-Im S Lim, Peter N Njoki, Hye-Young Park, Xin Wang, Lingyan Wang, Derrick Mott, Chuanjian Zhong, Nanotechnology 19 (2008), p. 305102 [10] Miguel Spuch-Calvar, Jorge Pérez-Juste, Luis M.

Numerical Simulation of Temperature Field and Experimental Verification during Micro-Detonation of Arc Strike Machining Xinli TIAN 1,a, Keling LIN 2,b, Baoguo ZHANG 1,c and Chunfang XUE 2,d 1National Laboratory for Remanufacturing, Academy of Armored Forces Engineering, Beijing China 100072 2Department of Mechanical Engineering, Academy of Armored Forces Engineering, Beijing China 100072 atianxli719251@sohu.com, blinkeling1985@yahoo.com.cn, czhang_baoguo@126.com, dxchunfang@sina.com Key words: Si3N4 ceramics; micro-detonation of arc strike machining (MDASM); temperature field; finite element; numerical simulation Abstract: A theoretical model of heat transfer for Si3N4 ceramics during micro-detonation of arc strike machining was established.
[7] Xinli Tian, Junfei Yang, Chao Liu, et al.