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Dry machining has only been made possible due to the technological innovations of tool materials, such as tool coating.
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Mechanical based surface treatment is also used for improving materials properties.
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The materials have been undergone a minor revival in the past years with the development of high-quality thin films [1-8].
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Acknowledgements The study is supported by Fujian Natural Science Fund（2010J01295）and by Xiamen Science and Technology Project Fund (3502Z20093031)，Quanzhou Science and Technology Project Fund (2008G5)，also by Heilongjiang Natural Science Fund（E201043） References [1] W Wenyan, Z Zhen-xu:International Journal of Automation and Computing, (2005),p.25 [2] Seino T, et al.: The Impact of “Digital Manufacturing” on Technology Manage –ment[R].in Proceedings of PICMET, Portland, or, United States, (2001),p.31 [3] P Jun, H Bang-jun, F Xiu-min: Journal of Donghua University, Vol.21(2) (2004),p.119 [4] W Taiyong,W Wenjin, W Wenying: J. of Central South University of Technology, Vol. 12(2)(2005), p.34 [5] Mujber T S, Szecsi T, Hashmi M S J: Materials Processing Technology, Vol. 155 (2004),p.1834 [6] P Jun,M Deng-hua, J Zu-hua: CIM System, Vol.8 (9): (2002), p.684 [7] S Baoshou, C Fan: Journal of Anhui Institute of Technology, Vol.22(3) (2005),p.259 [8] Z Lei, Z Yunan: Journal of

Acknowledgements This work was financially supported by Innovative Research Groups of the National Natural Science Foundation of China (51021004), Natural Science Foundation of China (51179121) and Natural Science Foundation of China (51209160).
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Acknowledgments This research is financially supported by ‘111 project’ foundation from State Administration of Foreign Experts Affairs of China (B07019), the Research Foundation for the Doctoral Program of Higher Education of China(20122304120035), the National Natural Science Foundation of China(51209060), the National Special foundation for Ocean Energy (GHME2010GC01, GHME2010GC02, GHME2010CY01).
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Along the installing direction, materials flow locate near the exit.
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Materials and Method 2.1 Materials The materials and equipment used in this research work include; Elephant and spear grasses, knife, basket, mortar and pestle, weighing balance, laboratory oven, Philips digital balance model NT 103, desiccators, crucibles, and a bio-digester. 2.2 Methods 2.2.1 Preliminary Test Preliminary test was carried out as follow; i.
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The rigidity of workpiece varies with the removal of material.
The workpiece material is TC4 titanium alloy with Young’s modulus of 1080GPa and Poisson’s ratio is of 0.33.
Acknowledgement The research work presented in this paper is supported by the National Natural Science Foundation of China (Grant No.51575272).
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The need of clean energy resources turned science community to hydrogen as an ideal energy carrier for the future.
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Although they seem to be promising materials, nevertheless they have not been proposed for technological applications as yet because of their strong stability (at 323 K, 0.012 bar equilibrium pressure) [10].
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