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Polyethylene (PE) grafted with maleic an hydride (MA), MA-g-PE, exhibits enhanced compatibility in polymer alloys of PE with polar materials like cellulose and chitin [1], which are promising as new environmental protection plastics[2].However, the lack of well- confirmed experimental evidence has left obscure the molecular structure of MA groups grafted onto PE, mainly owing to the low graft degree.
Acknowledgements This research was supported by the Korean Ministry of Science and Technology (MOST) as Nuclear R&D Program and S.
Huang: Journal of Applied Polymer Science Vol. 30 (1985), p. 1023 [6] W.

Analysis of Nuclear power Industry’s Sustainable Development in China From the perspective of Innovation Ecosystem Xielin Liu1, Xuemei Ma1,a Shumin Qiu1 1 School of management, University of Chinese Academy of Sciences, Beijing, China aemail: xuemei_ma@foxmail.com Keywords: Nuclear Power Industry; Innovation ecosystem; Sustainable Development Abstract：Power demand of China grows strongly in few decades.
For complex product systems’ innovation process, like nuclear power industry, changing one of small parts in it, will put forward new demands to control systems, materials and design solutions of the entire production system’s other parts.
Strategic management journal, 2010, 31(3): 306-333
Sustainable Development-Policy and Urban Development-Tourism, Life Science, Management and Environment, Prof.

We are also grateful to the Key Natural Science Fund of Jiangsu provincial department of education.
Journal of Loss Prevention in the Process Industries, 2002, 15: 413-421
Chemical Engineering Science, 2009, 64(24): 5182-5191
New Carbon Materials, 2009, 24 (3):193-232.

Simulation of a Self-Excited Power Generation System for Dielectric Elastomer Generation Takumi Sakano1,a*, Zhen-Qiang Song1,b, Kazuhiro Ohyama1,c, Shijie Zhu1,d, Mikio Waki2,e and Seiki Chiba3,f 1Fukuoka Institute of Technology, 3-30-1 Wajiro-higashi, Higashi-ku, Fukuoka, 811-0295 Japan 2Wits Inc. 880-3, Oshiage, Sakura-shi, Tochigi 329-1334, Japan 3Chiba Science Institute Meguro-ku, Tokyo, Japan amem18106@bene.fit.ac.jp, bzqsong33@126.com, cohyama@fit.ac.jp, dzhu@fit.ac.jp, ewaki@hyperdrive-web.com, fepam@hyperdrive-web.com Keywords: Dielectric elastomer generation, Cockcroft-Walton circuit, Ringing choke converter Abstract.
References [1] Seiki C. and Mikio W., Basic Characteristic of Dielectric Elastomer and Their Applications, Journal of Japan Society for Precision Engineering Vol.80.
No8., 2014 [2] Jiangshui H. and Samuel S. and Zhigang S. and David R., Maximizing the Energy Density of Dielectric Elastomer Generators Using Equi-Biaxial Loading, Advanced Functional Materials Volume 23, Issue 40 Pages 5056–5061 October 25, 2013 [3] Takao F. and Keiichi S., Operating principle of Cockcroft-Walton circuit to produce high-voltage, The papers of Technical Meeting on Plasma Science and Technology, PST-13-089, IEE Japan, 2013 [4] Tohru K. and Tsutomu O., Loss Reduction and Design Method for Self-Oscillating Flyback Converter, The transactions of the Institute of Electronics and Communication Engineers of Japan.

Experimental Materials and Methods.
[2] Ge Z S, Chen D Y, Zhang J Y，et al. : Journal of Polymer Science: Part A: Polymer Chemistry, .
[5] Lowe A B, McCormick C L. : Progress in Polymer Science.

Agrawal, in: The National Academy of Sciences, India, Golden Jubilee Commemoration Volume, edited by U.
Materials Science 34 (1999) 1131 [8] M.M.E.
Wagner, JR: Journal of Electrochem Soc.

Key Technology and Development on Side Pattern CAD/CAM on Mould for Auto Lamp Zezhong Chen1, a, Kai Fan 2, b, Zhenliang Lou3, c 1 School of Materials Science and Engineering, University of Shanghai for Science and Technology, Shanghai, 200093, China 2 Shanghai Yanfeng Automotive Parts Co., Ltd., Shanghai, 200233, China 3 Shanghai SAIC Motors Co., Ltd., Shanghai, 200086 a zzhchen@hotmail.com, bfankai@mail.yf.sh.cn, czllou@sh163.com Keywords: Auto Lamp, Mould, Side Pattern, CAD, CAM.
[4] Kai Fan, Fazhi Li, Zhenliang Lou and Yuefang Wang: Journal of Shanghai Jiao Tong University (In Chinese) Vol. 38, No. 9, (2004), p. 1532-1535

References [1] Junke Kou and Lianxin Wei, in: Improved Threshold Denoising Functions Based on Wavelet Analysis, volume 27 of Science Technology and Engineering, Peking University Press (2011)
[6] Yongdong Song,Yuqiang Zhang and Jianhua Zhang: submitted to Journal of Xi’an University of Engineering Science and Technology (2007) [7] Lu Yao, Shengqi Sun and Lin Li: submitted to Applied Mechanics and Materials (2012)

Quantitative value parameterization means to parameterize the numerical-value of FEA models, for example, the material attributes, the grid size, and the value and direction of load etc.
When using the FEA template, it only needs to modify the parameters to control the material attributes, grid size, and load parameters etc.
References [1] M.Nawijn, M.J.L.Van-Tooren, J.Berends, and P.Arendsen, "Automated Finite Element Analysis in a Knowledge Based Engineering Environment," in: 44th AIAA Aerospace Sciences Meeting and Exhibit, Reno, Nevada, January 9-12, 2006
Vol. 14 (1998), p.93 [3] J.Liker, M.Fleischer and D.Arnsdorf: Sloan Management Review Vol. 33(3) (1992), p.74 [4] W.Sun, Q.Y.Ma, and S.Chen: Journal of mechanical science and technology Vol. 23(12) (2009), p.3209 [5] Q.Z.

A new method of separating and refining β-methylnaphthalene from wash oil E Yongsheng1, a Sun Xiaodan2,b 1,2School of Biomedical and Chemical Engineering, Liaoning Institute of Science and Technology; Benxi Liaoning, 117022 a Eys73@126.com, b 847932931@qq.com Keywords: β-methylnaphthalene; separating and refining; method Abstract.
In addition, β-methylnaphthalene can also be used as the production of fiber dyeing assistant, wetting agents, dispersants, detergent, surfactants, lubricants.[1] In recent years, the β-methylnaphthalene has been developed to produce PEN, which is an important polyester, the application will further open the market of the β-methylnaphthalene. [2] The current technology of separating and refining β-methylnaphthalene The raw material of producting β-methylnaphthalene is industrial methylnaphthalene which comes from wash oil.
Experiment Raw material Industrial methylnaphthalene, the composition are shown in Table 2 Table 2 Composition of industrial methylnaphthalene Component naphthalene quinoline Isoquin-oline β-methylnaphthalene α-methylnaphtha- lene indole others Content [%] 6.62 5.65 1.41 55.28 15.82 3.56 9.66 Sulfuric acid, concentration of 93%, industrial grade The experimental equipment Efficient distillation column, φ100 × 2500, triangular spiral filler, the number of measured plate is 85.
Journal of Jiamusi University (Natural Science Edition). 2004,22 (4) :502-504 [5] Yao Runsheng, Xue Yongqiang, Wang Zhizhong.