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The model material is a mixture of fine sand, common cement and water, mixed in proportion of 5/5/2 by weight.
Acknowledgement This study is supported by "the Fundamental Research Funds for the Central Universities (2010ZY45)", "Ministry of Education Science and Technology Key Research Funds (211175)" and "National natural science Funds (41002113, 41162009)" References [1] P.H.S.W.
Mining Science and Technology 20(2010):530-534 [4] Tai-Tien Wang, Tsan-Hwei Huang.
Chinese Journal of Rock mechanics and Engineering, 2009, 28(12): 2391-2404 (in Chinese) [6] Zhigang Zhang, Chunsheng Qiao, Xiao Li.
Experimental study on the strength of single joint rock mass[J], China Railway Science, 2007, 28(4): 34-39 (in Chinese)

. & Material Research Institute, Tehran, Iran.
Experimental Materials: The MWNT with a purity of 95% was purchased from Nanotimes Company (Tehran, Iran).
Materials and Design 32 (2011) 3883–3892
Progress in Polymer Science 34 (2009) 479–515
Journal of Applied Polymer Science 89 (2003) 2589–2596

Antimicrobial Activity of Microencapsulated Cinnamon Oil and Its Application on Cherry Tomato Yage Xinga, Xihong Lib*, Qinglian Xuc, Chongxiao Shaod, Juan Yune Key Laboratory of Food Nutrition and Safety (Tianjin University of Science & Technology), Ministry of Education, Tianjin, 300457, PR China aemail: xingyage1@yahoo.com.cn, bemail(Correspondent)*:lixihong606@yahoo.cn, cemail: xingxuyage@yahoo.com.cn, demail:shaochongxiao@yahoo.com.cn, eemail: yunjuan_1@yahoo.com.cn Keywords: Antimicrobial activity, cinnamon oil, microencapsulation, cherry tomato Abstract.
In order to apply the formulations with oil time release mechanisms to the fruits and vegetables preservative industry, the cinnamon oil microencapsulation were prepared by simple coacervation method by chitosan coating and β-cyclodextrin as coating material.
Materials and methods Preparation of cinnamon oil inclusion complexes with β-cyclodextrin and chitosan.
Acknowledgements This study was supported by the Outstanding Doctorate Dissertation Foster Foundation of TUST (B201003), the National Natural Science Foundation of China (31000826) and by the 11th Five-Year Key Technologies R&D Program of China (2006BAD22B03).
Journal of Food Engineering, 29, 23-29

Research on optimal cutting parameters of High-Speed hard Machining based on the Principal Component analysis and Taguchi method Wenhui Cao 1,a; Hongbin Liu 2,b; Shensong Wang3,c; Ting Yang 4,d Faculty of Mechanical and Electrical Engineering, Kunming University of Science and Technology, Kunming, Yunnan Province, China 650500 acaowenhui66@163.com, blihhong6696@163.com canhui_wss@126.com, ddreamliner_july@163.com bCorresponding author Key words: High-speed hard machining; Taguchi method; Principal Component analysis method Abstract: The optimization of the parameters in high-speed milling was analyzed based on the principal component analysis and the Taguchi method.
In this paper, 9CrWMn hardened steel was used as experimental material, the cutting force, cutting power and the surface roughness parameters were selected as the quality characteristics which turned to the comprehensive quality characteristics by the principal components analysis, and then the Taguchi method was used to obtain the optimal range of parameters. 1 Optimization method introduction Taguchi method is a kind of quality engineering method which can effectively determine the production process parameters or design parameters based on experimental means [2].
Kunming University of Science and Technology (2012)
Journal of Materials Processing Technology, 2004, 155—156: 1505—1512.

Investigation of Morphology of Vetier (Vetiveria zizanioides) cellulose micro/nano fibrils isolated by high intensity ultrasonication Xin Wang1, a, Yan Wu2,b , Jintian Huang1, c 1 College of Material Science and Art Design, Inner Mongolia Agricultural University, 010018, Huhhot, China 2 College of Furniture and Industrial Design, Nanjing Forestry University, 210037, Nanjing, China awangxin2931@hotmail.com, b judy_nanjing@hotmail.com, c jintian_h@163.com Keywords: High intensity ultrasonication, Vetier (Vetiveria zizanioides), Cellulose, Micro/nano fibril, property Abstract.
Material and Method The Vetiver cellulose was prepared by laboratory method by boiling and delignification.
Then the cellulose material was put into the plastic bag in refrigerator.
Acknowlegement This research was supported by Inner Mongolia Application Technology Research project (20090514), China Postdoctoral Science Foundation funded project (20100471344), and Jiangsu Planned Projects for Postdoctoral Research Funds (0902102C).
Hegde: Journal of rametation crops, Vol. 25(1997), p.118

(2) Experiment and Result Experiment instrument and material.
Experimental materials are PEDOT/PSS original solution, Epson ME33 original ink cartridge, replacement cartridge, Epson photo quality ink-jet paper (S041061 102 g A4), Epson high quality matte paper (S041332 251 g A4), 70g ordinary duplicating paper and so on.
Acknowledgment This work is supported by China National 973 Planning Program Foundation(2009CB723905), Hubei Science and Technology Foundation (2009CDB209),and Wuhan University Large Scale Equipment Open Foundation(20111 / LF20110117).  
References [1] Ru-bo Xing, Yan Ding, Yan-chun Han: Journal of Molecular Science, Vol. 23 (2007) no. 20, pp. 75– 81.( In Chinese ) [2] J.

Study on preparation and decontamination properties of hybrid-photocatalysis based on graphene and TiO2 Zhiying XU1,a, Xingang Wang1,b, Yangbo LIU1,c, Weisheng MA1,d, Zeqin MO1,e 1Schoo of Environmental and Chemical Engineering, Jinagsu University of Science and Technology, Zhenjiang, Jiangsu, 212018, China a18652895470@163.com, bhofs@163.com, c396340962@qq.com, d1224560200@qq.com, e707682411@qq.com Keywords: Graphene Oxide, Graphene, Photocatalytic Abstract：The hybrid-photocatalyst was successfully prepared by compositing graphene and TiO2 in this thesis.
In this paper, high-purity graphite powder was used as raw material, according to the method of d Hummers [1] to prepare graphite oxide.
Materials and Methods Preparation of Graphene oxide.
Journal of Shaanxi University of Science & Technology, 2013, 31(1): 23-28.

,minimal homeomorphic configuration) is constructed by converting material flow paths to a configuration.
Secondly, the minimal homeomorphic configuration is operated by series-subdivision and the more complex system configurations are obtained.In essence,this method takes the system material flows as a given.
International Journal of Operational Research, 2009 6(3): 380-404
IEEE Transactions on Automation Science and Engineering,2005,2(1):32-39
Introduction to combinatorial mathematics[M].Hefei:China science and technology press,2010

Fluidization Behavior of Mixtures of Nanoparticles in Vibrated Fluidized Beds Xizhen Liang1,2,a, Tao Zhou1,b* and Hao Duan1,c 1 College of Chemistry and Chemical Engineering, Central South University, Changsha 410083, Hunan, China 2 Faculty of Biology, Chemistry and Material Science, East China Institute of Technology, Nanchang 330013, Jiangxi, China alxzhen11@126.com, b*zhoutao@mail.csu.edu.cn, c380109361@qq.com Keywords: Nanoparticles; Mixtures; Vibrated Fluidized Bed.
Recently, nanoparticles have helped to make advanced materials for the aerospace, transportation, electronics and health care industries.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (21176266).
Aiche Journal, Vol. 50(2004), p. 1776-1785

Chen 1,c 1 School of Material Engineering, Shanghai University of Engineering and Science, Shanghai 201620, China a E-mail: linwensong66@yahoo.com.cn, Tel.: +86 21 67791203, Fax.: +86 21 67791201 b E-mail:qshqli@online.sh.cn c email: chen_xuwen@126.com Keywords: jet electrodeposition; Ni-PTFE-SiO2 coatings; wear; corrosion resistance Abstract: Ni-PTFE/SiO2 composite coatings were prepared by jet electrodeposition.
Acknowledgments This research was supported by the Nano-Technology Foundation of Shanghai Science & Technology Commission (07zz159) and the Key Discipline Foundation of Shanghai Education Commission (XK0706).
Xiao: Chinese Journal of Materials Research, Vol. 18(2004), p. 542 (in Chinese) [8] S.