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The elements in the specimen must be sufficiently small to reflect the heterogeneous mechanical properties of materials at the meso-scale and still provide conditions under which a current computer can perform the analysis efficiently [10].
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Currently available experimental methods to get micro-pore structure characteristics of the porous materials are mercury intrusion porosimetry (MIP), adsorption, NMR, X-ray diffraction, optical microscopy, scanning electron microscopy (SEM), CT scanning, isothermal adsorption, etc [5,6].
Mercury intrusion porosimetry, which can directly get quantitative pore size distribution data with wide range of pore size, is a efficient method to study the pore size distribution of porous materials [3, 4,7,8,9].
One of important macroscopical parameters to characterize porous materials is porosity or void ratio.
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Patent storage study of cooperation between S&T-oriented small and micro enterprise and university in triple helix innovation based on short-supply-allowed EOQ model Qunfang Lai 1, a, Shibin Su 2,b 1 School of Management,Fuzhou University,Fujian Province,PRC,350108 2 School of Management,Fuzhou University,Fujian Province,PRC,350108 a171435405@qq.ocm, bsushibin2003@163.com Keywords:Short-supply-allowed EOQ model,Triple helix innovation, Science technology(S&T)- oriented small and micro enterprise,University,Patent storage Abstract.
Acknowledgements This research was supported by the National Natural Science Foundation of China under Grant(71272040, 71173040 and 70871117)and Social science planning projects of Fujian province (2012C020).And also supported by Program for New Century Excellent Talents in Fujian Province University(JA13038S).
[2]Peiyu Tang,Shibin Su:Advanced Materials Research.Vol.712-715(2013),pp 3207-3210
[3]Laifu Ye,Shibin Su: Applied Mechanics and Materials Vols. 411-414 (2013) pp 2317-2321
[4]Marius Lanskoronskis, Lineta Ramoniene and Petras Barsauskas:Baltic Journal of Management, Vol.4,No.3(2009)pp353-368

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Experimental procedure 2.1 Materials.
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The materials are characterized by FTIR and SEM analysis.
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FT-IR spectra of the different materials: "U105", "UC" and "UCP" Fig. 2. 
SEM of the different materials: "U105", "UC" and "UCP" b a c Fig. 3. 
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Three workpiece materials were considered, namely copper, germanium and silicon; and the cutting speeds used in the simulations were included.
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