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Thus ,more and more attention has been given to the vanadium oxide such as V2O5, V6O13,V3O7 and VO2(B)as the cathode materials for the Li ion battery.[1-9] The V6O13 showing the potential at the cathode materials of Li ion battery.
That indicated the flower-like V6O13 could reduce the damage of the cathode materials during the charge and discharge process.
Cao, Developments in Nanostructured Cathode Materials for High-Performance Lithium-Ion Batteries, Adv.
Vanadium Oxide Cathode Materials for Secondary Lithium Cells.
Journal of The Electrochemical Society, 1979, (126): 497-499

Material and experimental microscopic techniques The press casing under consideration was made of 50 CrMo4 forged steel with chemical composition given in Table 1.
However, the cracks in the press casing appearing in the course of the machine operation point to the need to perform advanced numerical simulations that precisely take account of the casing geometry and material.
Fig. 6 Normal stress distribution in direction Z The measure of the strain and stress state of a given structure, which takes account of 6 components, is the equivalent (von Mises) stress found using the Huber hypothesis of the non-dilatational strain energy, which was first put forward in a technical journal in 1903.
There are areas in it where stresses are slight – an excess of material – and areas with stresses reaching the value of 150 MPa.
Dobrzański, Fundamentals of Materials and Metal Science, printed by WNT, Gliwice-Warszawa, 2002, (in Polish)

Soil Science Society of American Journal. 1997,61(6):1293-1298 [4] Heitman J.L., Horton R.
Soil Science Society of America Journal, 2008, 72(5):1197-1207 [5] Shengjun Shao, Ji-yong Long,Sheng Yang, Y.S Luo.
Cold Regions Science and Technology, 1997,25(1): 33-45 [10] Ding-yi Xie.
Chinese Journal of Geotechnical Engineering, 2001, 23(1): 3－13.
China Journal of highway and transport, 2003, 16(2): 18－21.

Acknowledgment This work is supported by the Jiangsu Key Laboratory of Environmental Material and Engineering (K08021), National Natural Science Foundation of China (No.61070133), the Natural Science and Technology Foundation of Jiangsu Province of China (No.BK210311) and the Natural Science Foundation of Jiangsu Province of China (No.
Journal of Machine Learning Research, 3:1333 – 1356, 2003
IMA Journal of Numerical Analysis, 20(3):389–403, 2000
Journal of Machine Learning Research, 1:211–244, 2001
Journal of the Royal Statistical Socity, Series B, (Methodological), 58(1):267–288, 1996

Shanghai Science and Technology Press, 12:43~49. (2003)
Science Press, 2:26~31, 51~52. (2003)
Journal of Changsha University of Science and Technology(Natural Science), (1): 27-34.(2004)
China Journal of Highway and Transport, 16(3):64-68. (2003) [8] WAN Zhen.
Journal of Infrastructure Systems, 11(2):122-128.( 2005)

Figure 1.Flow chart of pilot-scale study of two pre-oxidation processes Material and Methods Description of the Pilot Plant.
Acknowledgment This research is financially supported by Supporting Certificate of China Postdoctoral Science Foundation (NO.20070420882); The National Natural Science Foundation of Heilongjiang Province of China (NO.
E200812); China Postdoctoral Science Foundation (NO. 200902408); The National Research and Public Service Industry Special Fund (NO. 200909055).
"Inactivation of Chironomid larvae with chlorine dioxide," Journal of Hazardous Meterials, vol. 142, pp.348-353, 2007
"A view of chlorine dioxide in drinking water treatment," Journal of AWWA, vol.78, pp. 62-73, 1986

Ballistic Performance Evaluation of Kevlar-Glass Fibre Hybrid Composite Laminate against Medium Velocity Impact Saurabh S Kumar1,a*, Dr.Rajesh G Babu2,b and U.Magarajan3,c 1Scientific officer, Ballistic Research Centre & Testing Range, National Forensic Sciences University, Gandhi nagar, India 2Associate Professor, School of Forensic Sciences, National Forensic Sciences University, Gandhi nagar, India 3Assistant Professor, Sree Sastha Institute of Engineering and Technology, Chennai, India.
Coban, “Detecting impact damages in an aramid/glass fiber reinforced hybrid composite with micro tomography,” Advanced Materials Research, vol. 445, pp. 9–14, 2012, doi: 10.4028/www.scientific.net/AMR.445.9
Ajir, “High velocity impact damage analysis for glass epoxy - Laminated plates,” Advanced Materials Research, vol. 399–401, pp. 2318–2328, 2012, doi: 10.4028/www.scientific.net/AMR.399-401.2318
Naik, “Ballistic impact behavior of hybrid composites,” Materials and Design, vol. 44, no.
Pan, “Influence of fabric structure and thickness on the ballistic impact behavior of Ultrahigh molecular weight polyethylene composite laminate,” Materials and Design, vol. 54, 2014, doi: 10.1016/j.matdes.2013.08.074

The main circuit of CDS_3151T pressure sensor is made of advanced materials and sealed to be isolated from outside.
Acknowledgment Our work was supported by Youth Fund of the National Natural Science Foundation of China (51304180), China Postdoctoral Science Foundation (2013M531529) and Advance Research Projects of Space Science (XDA04078100).
“Design of A New Fire Detection and Alarm System Based on Self-Organizing Wireless Sensor Networks”, Applied Mechanics and Materials, Vol52-54, 2011, pp.1142-1146
"Sensor Network and the Internet Data Transmission Technology Research Based on GPRS", Applied Mechanics and Materials, Vol.346, 2013, pp.59-64
Journal of Guangxi University for Nationalities (Natural Science Edition), Vol.8, No.1, 2002, pp.18-20

The Brief Analysis of Photovoltaic Insulating Glass in the Process Service Li Weihong1,a, Li Cong1, Qiu Yan2 and Wei Chenguang2,3 1 Dalian University Architecture and Engineering Institute, Dalian, China 2 China Building Materials Science Research Institute, Beijing, China 3 Xian Technological University, Xi’an, China aliweihong714@163.com Keywords: Photovoltaic insulating glass; Finite elements analysis; Stress; Deflection Abstract.
In the interval is dry air or inert gas, with surrounding sealing material package.
Acknowledgements This work was supported by Beijing Physical Science Fund (NO. 2102047), National Nature Science Fund (NO. 51172221), International collaborative project (NO. 2010DFB53100), National Science and Technology major device project (NO. 2011YQ140145) and China building materials science research institute Green building materials national key laboratory Open fund project.
References [1] Wang Dong, Wen Yugang and Miao Xiangyang Introduced of photovoltaic building integrated and photovoltaic glass component (Doors and Windows 2009,8) [2] Zhang Lejun and Zheng Hongsheng the thermal performance of hollow double glass photovoltaic modules (Building energy efficiency 2009,4) [3] Wang Mingyou and Zhang ruihong Based on ANSYS vacuum flat glass static finite element analysis (Yangzhou university journal 2009,11) [4] Glass curtain wall project technical specifications JGJ 102-2003 Beijing: China Building Industry Press, 2003 [5] Zhao Jianan and Zhang Qilin Hollow glass stress calculation theory research (Building structure 2006, 6)

Unfortunately, the two legs are not coaxial within the borehole, and a number of different materials involved make the task of finding a suitable analytical model difficult or even impossible.
The effect of backfill materials on the transient effectiveness coefficient of the GHE is shown in Fig. 3 as a function of thermal conductivity kb , which is set to 8.7 W/m·˚C,3.8 W/m·˚C,2.1 W/m·˚C and 1.1 W/m·˚C respectively while the backfill volumetric specific heat is assumed to be constant.
The higher thermal conductivity not only increases the heat transfer capacity of the GHE but also increases the thermal shorting-circuiting in the meanwhile, which conduces to the reduction of the effectiveness coefficient difference for the four kinds of backfill materials.
Certainly, the higher thermal conductivity of the backfill materials affirmatively makes a contribution to the heat transfer between the working fluid and the soil over time.
Fang: International Journal of Heat and Mass Transfer, Vol. 53(2010), p.2593 [4] Y.