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Materials and methods Experimental peanut shells bought from an agricultural fair in Shenyang.
It was sift after grinding, chosen peanut shells particles between 0.25 mm ~ 0.50 mm, soaked with deionized water for 48 hours, removed suspended material by filter, the remains were dried in 95 ℃, then put in dryers for later use.
Yoshitsune, et al: Journal of applied polymer science, Vol. 96(2005), p. 44 [4] D.

It is assumed that these defects affect the electrical performance of the devices and the optical properties of the material.
Coffa, Materials Science Forum 1662-9752, Vol. 963, pp 276-279 ].
Journal of Alloys and Compounds 504 (2010) 186–191 -[] A.

The supernatant was drained into wastewater treatment system and the sediment used as raw material of high-protein animal feed after being dried[3].
Starch is the main composition in the process of using corn as raw material to produce butanol by means of microbial fermentation, while other nutrients remain in the waste fermented liquid.
Considering the sediment will be utilized as raw material to produce high-protein animal feed, the flocculant must be non-toxic[6].
Research of Environmental Sciences. 11-2 (1998), p. 56-58 [2] S.
Chemical Engineering Journal. 80 (2000), p. 3-12 [5] Chihpin Huang, Yin Chen.

The stress-strain relations of orthotropic material are given as: The matrix from of above equation is: (4) Where , is respectively Young’s modulus at -direction, ， is respectively Poisson ratio atdirection,，， is respectively shear modulus at ，， surface.
For convenience, the following nondimensionalized natural frequency is used in presenting the numerical results in graphical and tabular forms: 3.1 Accuracy Analysis Consider an antisymmetric six ply laminated plat of a/h=10，Laying laminate material is graphite / epoxy material withE1/E2=40,G31=G21=0.6E22,G23=0.35E2, .
Acknowledgment This work is supported by the Aeronautical Science Foundation of China (Grant No. 2011ZA56002).
Journal of Sound and Vibration, 1979, 66(4): 565- 576

The Analysis of Fashion Buyers’ Development in Clothing Industry of China Lijun Liu1,a, Nan Qiao1,b, Xiaopeng Li2,c, Min Feng3,d 1 School of Textile and Garment, Hebei University of Science &Technology, Shijiazhuang, China 2 School of Foreign Languages, Hebei University of Science & Technology, Shijiazhuang, China 3 Journal of Hebei University of Science & Technology, Shijiazhuang, China aemail: liulijun20082002@yahoo.com.cn, bemail: wm9606@yahoo.com.cn cemail: lxp1022@163.com , demail: f1121m@163.com Keywords: clothing; buyers; brand; abilities; improvement Abstract.
Based on the analysis of fashion trends, they can predict the coming style, plus materials, colors etc.
Fashion buyers should not only be concerned about and sensitive to the latest trend, but also have a good knowledge of design, plus material, technology and process to catch the fashion information as quickly and accurately as possible.
They should also have systematic knowledge about the expression of trend and design concept, technique and features of plus materials in the designing process characteristic, and clothing matching skills and so on.
The information channel from raw material manufacturers, clothing processing enterprises at the beginning to the joining agents, the practice of selling and its feedback at the end must be free-flowing to ensure the buyer’s scientific decisions.

Materials and Methods Experimental materials and culture conditions The seeds for the study were from ten places in nine provinces, with different characteristics of geology and climate (Table 1).
Ten annual Toona Sinensis provenances potted seedlings, which were Nanjing of Jiangsu, Guangyuan of Sichuan, Dongkou of Hunan, Suizhou of Hubei, Xixia of Henan, Ankang of Shanxi, Qianxinan of Guizhou, Xiapu of Fujian, Jinan of Shandong, Heze of Shandong, were choosed to be the materials(In chart they were Nanjing, Guangyuan, Dongkou, Suizhou, Xixia, Ankang, Qianxinan, Xiapu, Jinan, Heze for short).
Acknowledgements This work was supported by the Science and Technology Project of Henan Province (112102110153), and the Science and Technology Project of Henan Province（122102110156）.
Wang, Geografic variation and provenance selection of Toona sinensis, Journal of Zhejiang Forestry College 9 (1992) 23-26 [in Chinese]
Shen, The Comparisons and the Analyses of differences in Phospholipids and fatty acids compositions from Leaf of Rhododendron of different cold resistance, J Nanjing Forestry University(Natural Sciences Edition) 21(1997) 66-69 [in Chinese ]

Introduction Carbon fiber is a kind of ideal engineering materials which have high strength, low density, high break strength and excellent heat-stability etc advantages.
Acknowledgements This work was supported in part by the Key Project of the National Nature Science Foundation of China (No. 61134009), the National Nature Science Foundation of China (No. 60975059), Specialized Research Fund for the Doctoral Program of Higher Education from Ministry of Education of China (No. 20090075110002), Specialized Research Fund for Shanghai Leading Talents, Project of the Shanghai Committee of Science and Technology (Nos. 11XD1400100, 11JC1400200, 10JC1400200), and the Fundamental Research Funds for the Central Universities.
Ismail: Journal of Analytical and Applied Pyrolysis Vol. 93 (2012), p. 1 [2] J.
Fong: Materials Chemistry and Physics Vol. 122 (2010), p. 548 [3] Y.
Pan: Materials Letters Vol. 65 (2011), p. 887 [5] J.

In China, a 20-year exposure program of various materials was started in 1984.
A national network was organized under the National Science and Technology Commission and National Natural Science Foundation of China to carry out the program [13].
Corrosion data can be obtained from the Test Station of Atmospheric Corrosion which includes corrosion rates of different kinds of materials at different exposure time.
Forum Vol. 41 (1999), p. 653-667 [4] Xian-chao HAO, Xiao-gang LI, Chao-fang DONG: Journal of University of Science and Technology Beijing.
Environmental Corrosion of Materials in China[M]．Beijing：Chemical Industry Press, 2005：69-70.

Thus, the investigation on lightweight materials aimed at the knowledge acquisition becomes of dramatic importance.
Gupta: Material science and engineering A Vol. 425 (2006), p. 22-27
Gabrielli : Key Engineering Materials Vol. 344 (2007), p. 55-62
Fatehi-Sichani: Journal of Materials Processing Technology Vol. 177 (2006), p. 478–482 [11] C.M.
Chen: Materials letters Vol. 62 (2008), p. 1129-1131

Materials and Methods Materials.
Forest Products Journal, 2010, 60(7): 668-678.
Construction and Building Materials, 2012,27: 60-65
Development of Fire-Retarded Materials—Interpretation of Cone Calorimeter Data [J].
Fire and Materials, 2007, 31: 327–354.