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Research on FBG temperature sensing network Kaixian Liu School of Sciences, Communication University of China, Beijing, 100024, P.
Under the supposition the temperature of the whole grating is homogeneous, and the variety of the temperature is also homogeneous, in the temperature measurement range, the coefficient of thermal expansionof the grating material is nearly constant value, and therm-optical coefficient of the grating material is nearly constant value, then the formula above can be rewritten as , order, then the following can be got: (3) The formula above illustrates the relationship of the changes of fiber grating center reflected wavelength with the temperature, andis temperature sensing coefficient.
Journal of Light Wave Technology, 1996, 14:58-65 [6] Davis M A, Kersey A D.
Confon Smart Structures and Materials, Glasgow, U.K. 1994, 342-345

Applied Mechanics and Materials, Vol. 555, 2014, pp. 178-185
Kim: Optimal design of hand-carrying rocker-bogie mechanism for stair climbing, Journal of Mechanical Science and Technology 27 (1) (2013), pp. 125-132
Applied Mechanics and Materials, Vol. 555, 2014, pp. 178-185

This unit with the capability of plastic deformation, creep, large deflection and large strain matches the material properties of sugarcane.
Sugarcane is a kind of complex material.
The single-disc Basecutter Mechanism of Sugarcane Harvester[D], Guang Zhou, South China Agricultural University,2005 [4] Lv Yong, Simulant Kinematics Analysis and Mechanism Study on the Affecting Factors of Rate OF Broken Biennial Root of Single Base Cutter of Sugarcane Harvester[D],Nan Ning,Guang Xi University,2007 [5] Hong Qingzhang, Liu Qingji and Guo Jianyuan, Teaching Example of ANSYS7.0[M], China Railway Publishing House,2003,7 [6] Song Rongrong,Li Shangping and Sun Xiuhua,Experime ntal Research on Influence Factor of Cutting-force of Sugarcane Harvest Machine[J], Journal of Agricultural Mechanization Research,2006, 7(7):128-132 [7] Wang Ruigui, Optimization Study on Working Parameters of Sugarcane Harvester Discal Cutter[D], Nan Ning, Guang Xi University,2004 [8] Liu Hongwen, Materials Mechanics[M], Higher Education Press,1991 [9] National Agricultural Technology Promotion Center, High yield and sugar cane cultivation Technical Manual[M], China Agricultural Science and Technology

Introduction Nanocrystals exhibit a series of different performance from ordinary polycrystal and morphous material, such as high strength, high specific heat capacity, high coefficient of expansion and good plastic deformation ability because of their superfine particles, and they also show abnormal Hall- Petch relation[1].
There are many preparation methods of nanocrystals, such as low temperature annealing[2], sputtering[3], crystallization of amorphous material[4], pulse current treating[5] etc.
Journal of Materials Research, Vol. 19 (2004), p. 685 [5].
Chinese Science Bulletin, Vol. 39 (1994), p. 974~976 [6].

The Sustainable Capability Research on Copper- and Iron- Based Oxygen Carrier Lei Chena, Jing Jinb and Huiwei Duanc Department of Power Engineering, University of Shanghai for Science and Technology, Shanghai, 200093，China achlneu@126.com, balicejin001@163.com, cduanhuiwei33@163.com Keywords: chemical-looping combustion, CO2 separation, mental oxygen carrier，sustainable capability Abstract.
The prepared oxygen carriers are composed of a metal oxide as an oxygen source and an inert material as a binder.
Experimental operation conditions experimental options operation conditions heating method unchanging temperature after heating to the specified temperature reaction temperature reduction-1073K, oxidation-1173K heating rate 20K/min carrier gas high purity nitrogen（99.999%） oxidation atmosphere compressed air reduction atmosphere high purity hydrogen（99.999%） gas flow 40ml /min referring materials Al2O3 crucible platinum sample weight 10mg For easy to compare, the author made dimensionless quantity to measure the specimen weight, conversion rate is definited X, its signify the ratio of the instantaneous reactant mass loss and the entire reaction mass loss
Conclusively, in 10 cycles the sustainable capacity of prepared Fe- based carrier has slight improvement, which means that prepared Fe- based oxygen carrier has a longer service life, the results show that prepared Fe- based carrier is more suitable for use as the chemical looping combustion material.
Journal of Chemical Engineering of Japan.

A Design of Forming Dies for a Manifold of Airbag Inflator Heng-Sheng Lin1, a, Sheng-Chi Tsai2, b, Yuan-Chuan Hsu3,c, Ming-Che Hsiao4, d, Chia-Chou Ke3, e ,Bean-Yin Lee3, f 1 Department of Mold and Die Engineering, National Kaohsiung University of Applied Sciences, Kaohsiung 807, Taiwan 2 Metal Industries Research & Development Centre, Kaohsiung 812, Taiwan 3 Department of Mechanical & Computer-Aided Engineering, National Formosa University, Hu-Wei 632, Taiwan 4 Shengyang Industrial Co., Ltd., 207, Sec. 1, Yong Fu Rd., Yongjing, Changhua 512, Taiwan a hslin@cc.kuas.edu.tw, b chichi@mail.mirdc.org.tw, c jasonych@nfu.edu.tw, d jack@oemodm.com.tw, e d9754101@gm.nfu.edu.tw, f leebyin@nfu.edu.tw Keywords: Metal Forming, Die Insert, Prestress, Finite Element Analysis, Airbag-Inflator Manifold.
Low-carbon steel rods of AISI 1008 were used as the billet material with a flow rule of s = 631 e 0.174.
Tungsten carbide (WC) and hot-work steel (AISI H13; SKD 61) were used as the materials for the die insert and the stress ring, respectively.
Fig. 4 shows the simulation of material flow which can assist the design of the extrusion/flaring operation.
Hess: Journal of Sound and Vibration Vol. 217 (1998), p. 283-296

Am: Chemistry of Materials, Vol. 50 (2011) No.26, p.5947
Lieber: Science, Vol. 73 (2001) No.41, p.1711
Lieber: Chemistry of Materials, Vol.33 (2011) No. 23, p.2457
Ruda: Journal of Colloid and Interface Science, Vol. 41 (2002) No.14, p.2590
Bello: Advanced Functional Materials, Vol. 115(2008) No.3, p.497

Parameter Calibration Method Based on Screw Theory for Articulated Coordinate Measuring Arm Kui Huang1,a, Rongguang Liu1,b, JianSheng Wu1, Xinrong Lao1, Jianhua Mo2 1Guangxi Zhuang Autonomous Region Institute of Metrology & Test, Nanning, 530022, China. 2State Key Laboratory of Material Processing and Die & Mould Technology, Huazhong University of Science and Technology, Wuhan, 430074, China.
Deviation of the 36 distances Acknowledgements This work was sponsored by National natural Science Foundation of China(50875093), which was undertaken by the State Key Laboratory of Material Process and Die & Mould Technology and Guangxi Zhuang Autonomous Region Institute of Metrology & Test.
[4] YE Sheng-hua, WANG Yi, REN Yong-jie, LI Ding-kun: Journal of Tianjin University, 2007;40(2): 202–205

Boundary Conditions and Materials.
[2] Qian Su, Hao Bai, Xun Wang et al.: Journal of Southwest Jiaotong University (English Edition) Vol. 18(2010), p. 8-12
[3] Lixin Qin: China Railway Science Vol. 28(2007), p. 5-10,in Chinese
[5] Yongxiang Zhan, Guanlu Jiang and Yongxing Wei: China Railway Science Vol. 27(2006), p. 22-26,in Chinese

Kinetics of reductive dechlorination of DDT in soil with zero-valent iron Lang Yinhai1,2,a, Wang Minjie1,2,b, Wang Nannan1,2,c 1College of Environmental Science & Engineering, Ocean University of China, Qingdao, 266100 2Key Laboratory of Marine Environmental Science and Ecology, Ministry of Education, Ocean University of China, Qingdao, China, 266100 ayhlang@ouc.edu.cn, bwangminjie118@163.com, cbolatuwangnan@126.com, Keywords: Dichloro-diphenyl-trichloroethane; Red soil; reductive dechlorination; zero-valent iron Abstract: In this study, reductive dechlorination of DDT compounds by zero-valent iron in Jiangxi red soil was investigated.
Materials and methods Reagents and sampling The electorlytically produced zero-valent iron powder (size < 100mesh) was purchased from Shenhe Scientific Co.
Lu: Journal of Wuhan Institute of Technol.