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Yang and Y.
Vol. 74 (1991), p. 612 [3] Sasa Novak, Tomaz Kosmac, Kristoffer Krnel and Goran Drazic: J.Euro.Ceram.Soc.Vol. 22 (2002), p. 289 [4] Jinlong Yang, Liang Su, Liguo Ma and Yong Huang: Key Eng.
Vols. 224-226(2002), p.667 [5] Lei Zhao, Jin-long yang, Li-guo Ma and Yong huang: Mater.
Vol. 56 (2002), p. 990 [6] Guo Ruisong, Chen Yirui, Yang Zhengfang and Yuan Qiming: Journal of Tianjin University Vol. 27 (1994), p. 665 [7] E.

[3]Weili zhang, Zhexu tian, Ning zhang, etc.

Table 1 The sizes of some shuttle-shaped columns in the Chaoshan area Note: A represents the shrunken size of the column head,B represents the shrunken size of the post heel Name of the shuttle-shaped column column height (cm) the maximum diameter of the column shaft (cm) the diameter of the column head (cm) A (cm) the diameter of the post heel (cm) B (cm) A/B the position of the maximum part of the column shaft The principal column in the Di Zang pavilion in Kai Yuan Temple 659 70 61 9 66 4 9/4≈2/1 1/2.66 column height The principal column in the Tian Wang Hall in Kai Yuan Temple 468 57 48 9 53 4 9/4≈2/1 1/3.12 column height The eave column in the Shuang Zhong Temple 270 41.5 39 2.5 41 0.5 2.5/0.5=5/1 1/2.71 column height The San Shan central cylinder in the mansion of Xu 372 27 23.2 3.8 24.8 2.2 3.8/2.2≈3/2 1/2.48 column height The principal column in the back hall of the mansion of Huang 385 43.4 34 9.4 36 6.4 9.4/6.4≈3/2 1/2.42 column height The upright column in the mansion

Yang et al reported that the nonlinear coefficient of WO3-based varistors doped with Gd2O3 was about 2.5 and the barrier voltage was very low with the value of about 0.06 V.
Yang et al also found that the breakdown voltage of the WO3 ceramic containing 2 mol% CeO2 is 3.1V/mm, which is very low for varistor materials indicating that WO3 is more suitable for low voltage varistor [11].
Yang, Z.
Yang, Z.L.
Yang, Y.

[7] F Ding, W Tian. (2011) Management information system of multi campus university teaching.

Research Progress of the Counter Electrode in Dye-sensitized Solar Cells Yingtong Tang, Xu Pan, Songyuan Daia , Changneng Zhang, Huanjun Tian Key Lab of Novel Thin Film Solar Cells, Institute of Plasma Physics, Chinese Academy of Sciences, P.O.
Yang, J.

modeling of high Power water resistor speed control system of wound rotor induction motor Yang Qiyu1,a, Zhang Xia2,b, Chen Tianrui1,c 1College of Automation, Guangdong University of Technology, No.100 Waihuanxi Road, Guangzhou HEMC, Panyu District, Guangzhou, China 2 College of Engineering, Agricultural University of South China, Guangzhou, China aYangqiyu@gdut.edu.cn, bzx@scau.edu.cn, c trchen304@gmail.com Keywords: Water resistor Speed control system, Steady-state and dynamic model, Temperature compensation, soft starting Abstract.
Yang, Y.H.
Yang, Y.L.

Study on friction and wear properties of plasma and laser coatings of aluminium bronze powder Huaizhi Wang1,a, Zhiping Wang1, Yang Lu1, Yafei Li1, Guoqing Tian1 1Lan Gong Ping Road 287#, material science and engineering, room 216, Lanzhou university of technology, 730050, China awanghuaizhilz@163.com Keywords: Plasma spraying coating; Laser cladding; Copper alloy powder; Microstructure; Friction and wear properties.
References [1] Tang ying, Yang jie. in: Hot Working Technology, Vol. 2 (2002), p. 16 [2] Guo shaoyi, Li xingjun, Yang qiuhe et al.
Journal of Materials Engineering, Vol. 6 (2008), p. 72 [3] Lu yang, Li wensheng, Wang zhiping.
Hot Working Technology, Vol. 3 (2002), p. 45 [4] Li wensheng, Wang zhiping, Lu yang.
Materials Transactions, JIM., Vol.32 (1991), p. 128 [9] Li wensheng, Lu yang, Jin yuhua et al.

Guochong Hui, Tian Feng accounting, Jin Xiaoming, etc.

Dynamic analysis on energy-saving effect of Distributed Cooling System in TBS Tianjian Yanga, Yang Lib School of economics and management, Beijing University of Posts and Telecommunications, Beijing, China afrankytj@bupt.edu.cn, bliyang1221@126.com Keywords: Distributed Cooling System, energy-saving, base station, air-conditioning system Abstract.
Yang, X.