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In Construction and Building Materials.
In Construction and Building Materials.
In Construction and Building Materials.
International Journal of Modern Engineering Research (IJMER), Vol.3 (2013), pp-709-714
In Materials and Design.

Pore Size Distribution Effect on the Mass Transfer and Reaction in a Cylindrical Porous Gas Sensitive Medium Mingchun Li 1, a Chen Wang 1,b Jiatao Liu 1,c and Yu Jing 1,d 1School of Material Science and Engineering, Shenyang University of Technology, Shenyang, 110870, China aliming-799@163.com, bwc23jp2@163.com, c669272500@qq.com, djy214@vip.qq.com Keywords: Porous sensitive medium, effective diffusion coefficient, lognormal distribution, reaction rate.
However, most investigations on the porous metal oxide gas sensors were focused on the ion doping, surface modification of precious metals and the development of new materials [5, 6].
Gupta: Critical Reviews in Solid State and Materials Sciences.
Sberveglieri: Progress in Materials Science.
Hohenthanner: International Journal of Heat and Mass Transfer.

The outer decoration adopts the heat insulation and fire prevention material.
The ratio of the material recycle and utility has reached over 80%
* This work is supported by the National Natural Science Foundation (51178286) and National Natural Science Foundation (51578357).
Journal of shenyang architectural university: natural science edition, 2015(3)
Modern Science, 2008,(22): 128-129.

Metal electro-plastic effect is currently an important research field in material science.
It excluded the influence of the second-phase when adopting alloys, and the fundamental electro-plastic effect could be observed effectively. 1 Experimental Method The raw materials (Ti and Ta sheets) were supplied by Baoji Yihao Metal Material Co.
An Evaluation of the Contributions of Skin, Pinchand Heating Effects to the Electroplastic Effect in Titanium.Materials.
Low Current Electroplastic Effect in Ferromagnetic Materials[J].
Journal of Applied Physics, Vol.89 (2001), p. 5597 [7] Aliev, Seleznev.

Study of an Inorganic Ion Exchanger Mg2Ti1.25(PO4)3 Jinhe Jiang MicroScale Science Institute , Department of Chemistry and Chemical Engineering ,Weifang University, Weifang, 261061,China jiangjinhe2012@126.com Keywords: Mg2Ti1.25(PO4)3, Ion exchanger, Exchange capacity Abstract.
Introduction Lithium and its compounds are widely used in ceramics, medicine, air conditioning, catalysts, high-energy lithium battery and light aluminum alloy, etc., especially for the thermonuclear reaction, lithium is the essential raw material[1-2].
Distribution coefficient of MgTi-750(H)for alkali ions References [1] Z.S.Peng, Y.S.Yan, C.Y.Jiang, C.R.Wan, H.C.Gao: Advance on extraction lithium from salt lake, J.Chemistry Online. 1997, (12), 11 [2] Y.F.Liu, Q.Feng, Kenta Ool: Li extraction/insertion reaction with LiAlMnO4 and LiFeMnO4 spinels in the aqueous phase, J.Journal of Colloid and Interface Science . 1994, 163(1), 130 [3] D.Q.Dong, J.Zhong, D.L.Liu, Y.F.Liu: LiCu0.5Mn1.5O4 synthesis and Li+ extraction/reaction with it in the aqueous phase, J.China Journal of Applied Chemistry . 1998, 15(3), 11 [4] D.Q.Dong, F.B.Zhang, G.L.Zhang, Y.F.Liu: LiMg0.5Mn1.5O4 synthesis and its selectivity to Li+ exchange, J.Chinese Journal of Inorganic Chemistry. 2004, 9(9), 20

We recommend that the upper pole section shape , size or the material of main stay bar should be changed and other measures to reduce the dangers of vortex- excited resonance and test the bridge to ensure safety in the process of building.
Acknowledgement This work was financially supported by the Develop Project of Ministry of Housing and Urban-Rural Development of People’s Republic of China (2011-k2-22) and the Liaoning Provincial Natural Science Foundation (201102154) and the Liaoning Provincial Department of Education Foundation (L2010379) References [1] Chen Yi-qian，Analysis on Wind-Resistant Behavior of Fenghuajiang Bridge in Ningbo City of Zhejiang Province，Shanxi Architecture 32(18)：269-270, in Chinese
[3] Zhou Li ,Ge Yao-jun，Sectional model test study on vortex-excited resonance of vehicle-bridge system of Shanghai Bridge over Yangtse River，China Civil Engineering Journal, 2007.8;61-66, in Chinese
[4] Li Xiao-meng, Zheng Su，Wind speed causing vortex-induced vibration of round cross-section rods in quayside crane structure，Journal of Shanghai Maritime University ， 2005, 02, in Chinese
[7] Song Zhi-fei, Guo Ying, Shi Hui-qi, Song Rui, Calculation ofVortex-excited Resonance Response ofOne Arch Bridge Primary Stay Bar, Journal of Science Technology and Engineering, Vol.9, No.10, May 2009:2649-2654, in Chinese.

The coefficient K is the stiffness in hertzian model, which is dependent on material property and the shape of the collision surface
Ke, “Design and accuracy for POGO stick with three-axis”, Journal of Zhejiang University: Engineering Science, 43(9), 2009, pp. 1649-1654
Ke, “A novel posture alignment system for aircraft wing assembly”, Journal of Zhejiang University-Science A, 10(11), 2009, pp. 1624-1630
Crossley, “Coefficient of restitution interpreted as damping in vibroimpact”, Journal of Applied Mechanics, 7(2), 1975, pp. 440-445

The cm-g-μs units and isotropic elastic material model were used to the computational model.
References [1] Lin J L, Tsai K C and Eduardo M: Journal of Structural Engineering Vol. 135 (2009), p. 101–112 [2] Shouping Shang, Huawei Lu, Xinping Zou, Shuang Li and Wanruo Chen: Engineering Mechanics Vol. 30 (2013), p. 41–46 (In Chinese) [3] Hongtao Xu, Wenbo Lu and Xiaoheng Zhou: Engineering Journal of Wuhan University Vol. 41 (2008), p. 67–71 (In Chinese) [4] Shuangying Zuo, Ming Xiao, Jianke Xu and Wenbing Shi: Rock and Soil Mechanics Vol. 32 (2011), p. 3171–3176 (In Chinese) [5] Xinping Li, Jian Meng and Pengcheng Xu: Rock and Soil Mechanics Vol. 32 (2011), p. 474–480 (In Chinese) [6] Jianhua Zhang, Shilu Li, Yujie Wang and Guishou Li: Journal of Wuhan University of Science & Technology (Natural Science Edition) Vol. 24 (2001), p. 174–177 (In Chinese)

Acknowledgement: Project supported by the National Natural Science Foundation of China (111021181 ); Project supported by the BAI,QIAN,WAN Talent Fund of Liaoning Province (2011921048); Project supported by Education Department of Liaoning Province (L2010389); Special Fund for Talent of Shenyang.
Journal of Hydroelectric Engineering, 2006,25(4):102-107
[3] Chengmu Li: Magnesia concrete authigenic volume deformation of the long-term experimental research results[J] .Journal of Hydroelectric Engineering,1999,18(2):11-19
Water and electricity energy science,2011,29(10):57-59
[5] Ping Woo: The method of calculating the compensation of temperature stress of the high RCC gravity dam mixed with magnesia concrete[J].Journal of China institute of water resources and hydropower research,2004,2(4):302-306

Conclusions Acceptance sampling is a statistical procedure used for determining whether to accept or reject a production lot of material.
Acknowedgements This study was supported by the National Natural Science Foundation of China (No.61373174,No.71271165 and No.61105065).
:An effective decision making method for product acceptance, Omega-Inte-rnational Journal of Management Science Vol.35(2007),p.12-21
:A variables sampling plan based on cpmk for product acceptance determination,European Journal of Operational Research Vol.184(2008),p.549-560
:Proces capability analysis of non-normal process data using the Burr XII distribution,The International Journal of Advanced Manufacturing Technology Vol.27(2006), 975-984