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Foulds1 Department of Electrical Engineering, King Abdullah University of Science and Technology, Saudi Arabia Email: yiqiang.fan@kaust.edu.sa Keywords: Microlens, microlens array, polystyrene, Laser-induced bumps, Abstract.
Introduction The integration of optical microsystems and polymer material has recently attracted considerable interest.
This is due to the various selections of the polymer materials and the wide applications of the optical microsystems.
The material vaporization will be greatly enhanced if the power of the laser beam is too high (above 750 mW in our case), which will result in a depression profile instead of the bump profile.
Opt. 37, 627-631 (1998)  [8] B.S Rao and K.Matyjaszewski, "Preparation of pH sensors by covalent linkage of dye molecules to the surface of polystyrene optical fibers," Journal of Applied Polymer Science Volume 43, Issue 5, pages 925–928 (1991) [9] Yuanhao Liu, Daozhong Zhang and Qingbo Meng, "Subpicosecond optical switching in polystyrene opal," Appl.

Innovative Design of Hydraulic Driving Drum for Belt Transfer Machine Xin Zhanga, Yubin Houb , Junhua Yuanc and Chuanqi Sund College of Mechanical and Electronic Engineering, Shandong University of Science and technology, Qingdao, Shandong, 266590 azhangxinmt@163.com, b329701294@qq.com, cwoshiyuanjunhua@qq.com, d01scq@163.com Key words: innovative design, hydraulic driving, drum, belt transfer machine, roadheader Abstract.
Acknowledgments This research is supported by university science and technology research project of Shandong province (No.
Merriman: Coal International Mining and Quarry World Vol. 251(2003), p.161-164 [3] Zihan Wang: Coal Mine Machinery Vol. 28(2007), p.18-20 [4] Feng Han: Mechatronics No.11(2008), p. 48-50 [5] Lian Chen: Journal of Mechanical Strength Vol. 29(2007), p. 601-606 [6] Peixing Lu: Mining & Processing Equipment No.2(2001), p. 67 [7] Jiyun Zhao, Haigang Ding, Liang Zhao: Applied Mechanics and Materials Vol. 34-35(2010), p. 1205-1210 [8] Shuji Li: Hoisting and Converying Machinery No. 4(2005), p. 48-49 [9] Yongsheng Deng, Yigong Lu, Pingyong Xiao, and Xilin Liu: Applied Mechanics and Materials Vol. 29-32(2010), p. 2042-2046

Water Modeling Study on Removal of Inclusions in RH Degasser Chunjie Yang1, a, Fuping Tang2,b and Tao He3, c 1 School of Chemical Engineering, University of Science and Technology Liaoning, Anshan city 114053, Liaoning, China 2Anshan Iron and Steel Group Company, Anshan city 114009,Liaoning,China 3 School of Materials and Metallurgy, University of Science and Technology Liaoning, Anshan city 114053, Liaoning, China asunnyas@163.com, bxfwang_breeze@hotmail.com, c1090100130@qq.com, Keywords: Water Modeling, RH degasser, Inclusions Abstract.A physical model was established according to the “similarity theory” to simulate the real 175t RH-TB vacuum refining device.
International Journal of Minerals, Metallurgy and Materials Volume17, Number1, February 2010, Page22

Acknowledgements This work is supported by the National Natural Science Foundation of China (Nos. 11272188), Shandong Provincial Natural Science Foundation, and China (ZR2010AM016), the Promotive research fund for excellent young and middle-aged scientists of Shandong Province, China (BS2013ZZ015).
Advanced Materials Research.
Advanced Materials Research.
Chinese Journal of Ship Research, Vol. 3(2008) pp 37-47

The model takes into account the dependence of the heat transfer coefficient and material characteristics on the local temperature of the part surface.
The material of the selected cross-section was the aluminum alloy AK6 with an initial temperature of 515ºC, a quenching medium was water with a temperatureof 27 °C.
Averchenko, Technological heredity in mechanical engineering, Minsk, Science and Technology, 1977
Handbook, The application of engineering journal, 9 (2013) 8-17
Slyunyaev, Estimation accuracy of the solution of unsteady thermal problems and the calculation of the quenching process with gradual immersion in quenching environment using finite element method, Science.

Analysis of Pitch Curve of Internal-curved Planet Gear Pump Zhenhui Luana,Chao Wangb ,Weipeng Gaoc Mechanical Engineering school, Anhui University of Science and Technology, Huainan, Anhui, 232001, China azhluan@aust.edu.cn,bhxjxwangchao@126.com, cweipeng87@126.com Keywords : Inner curve, Planet gear pump, Pitch curve, Design , Calculation.
Acknowledgements This work is supported by Anhui Provincial Natural Science Research Projects in Colleges and Universities (KJ2012A075).
Journal of Anhui University of Science and Techn0logy(Natural Science), Vol. 30(2010) NO.2,p.17.
[2] Z.H.Luan:Research on Non-circular Planetary Gear Pump.Advanced Materials Research Vol. 339 (2011) p 140-143

Numerical simulation of compressive experiment of Coal Seam in deep underground for geological storage of carbon dioxide Fengshan Han1, 2,a, Xinli Wu 3, b 1Research Center for Numerical Tests on Material Failure, Dalian University, Dalian, 116622, China 2 State Key Laboratory of Coal Resources and Safe Ming, China University of Ming and Technology, Xuzhou, 221116, China 3 Colleague of Engineering, the Pennsylvania State University, Pennsylvania, USA ahanfs@sohu.com, bxinli@psu.edu Keywords: Coal seam, deep underground， compressive experiment， numerical simulation，, geological storage Abstract:.
In this paper, the input material mechanical property parameters used for our numerical model of coal sample are listed in Table 1.
unconfining pressure by numerical simulation Conclusions From the progressive failure for coal sample under the condition of confining pressure 25Mpa it can be clearly seen that failure shape of coal seam in deep underground under triaxial compressive experiment of lateral pressure of 25Mpa is typically shear failure, and From the progressive failure for coal sample under the condition of unconfining pressure by numerical simulation， failure shape of coal seam under the condition of unconfining pressure is compresive and shear，and its failure surfice has chractteristics of fractal ，and it is shown by numerical simulation that failure shape of coal seam in deep underground under triaxial compressive experiment of lateral pressure of 25Mpa is typically shear failure, and characteristic of deformation is obviously elastic-brittle, which is significance to understand the performance of the coal seam in deep underground Acknowledgements This research is funded by the “Project of science
and technical program of the Educational Department of Liaoning Province (L2012436) ” and “Open Projects of State Key Laboratory of Coal Resources and Safe Mining of China University of Ming and Technology (11KF07) ” and “Dalian science and technolodge program project (20120783) ” References [1] Lei Neng-zhong, Journal of Hefei University of Technology(social science), Vol.25（2011），p：46 (in Chines) [2] Li Xiao-chun, Fang Zhi-ming, Wei Ning, et al，Rock and Soil Mechanics, Vol.30（2009），p :2674 (in Chines) [3] C.A.Tang,.
Tang, S..H.Wang,Y..F Fu, Numerical test of rock failure process，Science press，Beijing， 2003 [7] Wong S, Law D, Deng X, et al，Int J Greenhouse Gas Control ，Vol.1（2007）p :215

Experimental Materials.
Journal of Applied Polymer Science. 85 (2002) 1593 – 1606
Polymer nanocomposite research advances, Nova Science, New York, 2008, pp. 175 - 227
Composites Science and Technology. 70 (2010) 1429 – 1436
Composites Science and Technology. 69 (2009) 2587 – 2595

Study on Biomedical Resources of Benzene/alcohol Extractives of Eucalyptus Leaves by GC/MS PENG Wan-xia, WU Feng-juan, WU Yi-qiang, ZHANG Zhong-feng College of Materials Science and Engeering, Central South University of Forestry and Technology, Changsha 410004, P.R.
The results of function analyses suggested that the benzene/ethanol extractives of both E. dunnii and E. grandis leaves were abundant in materials of noble natural biomedicines, and also contained constituents which could be developed into top value-added materials of cosmetics and health care.
Materials and methods Experiment Materials.
Phenolic compounds were the common raw materials for industrial corporation.
Lijuan: Journal of Tropical and Subtropical Botany Vol.13(2005), p.271-274

Materials and Methodology Carbon dioxide and nitrogen gas cylinders of purity 99% were used.
Special thanks to STDF (Science and Technology Development Fund) [Project ID 12395].
Progress in energy and combustion science 31 (4) (2005), pp. 283-307
Journal of Membrane Science 359 (1-2) (2010), pp. 115-125
Journal of CO2 Utilization 3 (2013), pp. 37-43