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Box 77, D/A Pejabat Pos Besar, Kangar, Perlis, 01000, Malaysia 3 Faculty of Materials Science and Engineering, University POLITEHNICA of Bucharest, Bd.
Alexandrov: Progress in Materials Science 45(2000), p. 103
Wang: Materials Science Forum 667-669 (2011), p. 343
Valiev: Journal of Materials Research 17 (2002), p. 5
Dobatkin: Materials Science Forum, Volume 667-669 (2011), p. 289.

Carbon Fiber Engineering Research Center, Faculty of Materials Science, Shandong University, Jinan 250061, China 3.
A.Podkopayev, et al.: Journal of Materials Science vol. 45(2010), p. 3998–4005
[6] J.X.Li, R.D.Sanderson and E.P.Jacobs: Journal of Membrane Science vol. 205(2002), p. 247-257
[17] G.Hinrichsen: Journal of Polymer Science Part C Polymer Symposia vol. 38(1972), p. 303-314
R.Uhlmann: Journal of Materials Science vol. 14(1979), p. 1893-1900.

Materials and methods Obtaining of the experimental dental composites and giomers.
The corresponding values of the studied areas of the materials were obtained by interpolation.
Tam, D.McComb, Comparative Translucency of Esthetic Composite Resin Restorative Materials, J Can Dent Assoc 76 (2010) 84
Dadic, Radiopacity of composite dental materials using a digital X-ray system, Dent Mater J 31(1) (2012) 47–53
Review of clinical and research aspects, Journal of Dentistry 38 (2010) 2–6

Gherardi: submitted to Journal of Nuclear Materials (2002) [2] OECD/NEA Nuclear Science Committee, Handbook on lead-bismuth eutectic alloy and lead properties, materials compatibility, thermal-hydraulics and technologies, NEA No. 6195, 2007
Wu: submitted to Journal of Nuclear Materials (2007) [9] Q.Y.
Benamati, et al.: submitted to Journal of Nuclear Materials (2011) [13]F.L.
Li: submitted to Journal of Nuclear Materials (2007) [14]C.
Wedemeyer, et al.: submitted to Journal of Nuclear Materials (2006) [15]W.M.

Study on the Energy-efficient Production of Fuel Ethanol by Cassava Absorbent Jia Song1, a, Yuelin Zhu2,b, Si Zhang3,c 1School of Material Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China 2School of Material Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China 3School of Material Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China asongjiacat@sina.cn, bylzhu@buaa.edu.cn, cgatx8686@163.com Keywords: fuel ethanol, cassava adsorption, ethanol dehydration, fixed-bed Abstract.
Low concentrations of ethanol is produced by cassava fermentation, high concentrations of ethanol is produced by low concentrations of ethanol distillation, then, ethanol is produced by cassava adsorbent from high concentrations of ethanol, at last, the failure of cassava adsorbent return to the fermentation process as the raw materials.
Materials and instruments Materials. 95% ethanol (V/V , C.P. ), ethanol( ≥99.7%, M/M C.P.), cassava powder(It was made by cassava planted in Guangxi and Fujian province, used as adsorbent, at a certain size, dried in oven at 105℃ for 8h and saved in dry box ) Instruments.
If the particle size is too large, the contact area between fluid and materials will descend, this will reduce adsorption capacity of water.
Poizat: submitted to Joumal of Zeolites (1997) [6] Grażyna Lewandowicz, Wojciech Białas, Bartłomiej Marczewski and Daria Szymanowska: submitted to Journal of Membrane Science (2011) [7] Xiuli Han, Xiaojian Ma, Jindun Liu and Hongping Li: submitted to Journal of Carbohydrate Polymers (2009) [8] Jarkko Helminen, Mika Leppämäki, Erkki Paatero and Pentti Minkkinen: Chemometrics and Intelligent Laboratory Systems (1998) [9] Hu-Ping Luo and Wen-De Xiao: submitted to Journal of Chemical Engineering Science (2011)

Because of its good electrical conductivity, flexibility and low cost, the pressure-sensitive conductive rubber, can be used as an ideal flexible tactile sensor sensitive materials[4].
However, the conventional Si-based materials is with machine embrittlement characteristic, can not take large deformation and instantaneous impact.
At the same time, the rigidity of the material is difficult to achieve the touch-sensitive detection on the curved surface, thus the microelectronics mechanical system devices of Si-based materials have their limitations[17].
Chou: Journal of Functional Materials, Vol. 39 (2008) No. 2.p.117.
Masatoshi: IEEE Sensors Journal, Vol. 4 (2004) No. 5.p. 589

Investigation of Morphology and Electrical Properties of Contact Materials after Airtightness Test Zhigang Kong1, a, Yigang Kong2, b 1Research Laboratory of Electrical Contacts and connectors Beijing University of Post and Telecommunications, Beijing, 100876, China 2School of Mechanical Engineering, Taiyuan University of Science & Technology, Taiyuan 030024, China.
Zhang, Natural corrosion and electrical contact property of gold plating on contacts, Electronic Components and Materials, 4 (2001)11-16
Davis,  Chemical, electrical, and structural properties of Ni/Au contacts on chemical vapor cleaned p-type GaN, Journal of Applied Physics, 11 (2002) 9151-9154
Hwang, A study on the development of environment-friendly Ag-SnO2 electric contact materials through a powder metallurgy, Materials Science Forum, 3 (2006) 2761-2768
Roccaforte, Evolution of structural and electrical properties of Au/Ni contacts onto p-GaN after annealing, Materials Science Forum, 717(2012) 1295-1261.

Khan, Numerical analysis of magnetic field effects on Eyring-Powell fluid flow towards a stretching sheet, Journal of Magnetism and Magnetic Materials 382 (2015) 355–358
Pop, MHD heat and mass transfer flow over a permeable stretching/shrinking sheet with radiation effect, Journal of Magnetism and Magnetic Materials 407 (2016) 235–240
Pop, Boundary-layer flow of nanofluids over a moving surface in a flowing fluid, International Journal of Thermal Sciences 49 (2010) 1663–1668
Nield, Natural convective boundary-layer flow of a nanofluid past a vertical plate, International Journal of Thermal Sciences 49 (2010) 243–247 [16] Y.
Ul Haq, Magnetohydrodynamic (MHD) stagnation point flow of nanofluid past a stretching sheet with convective boundary condition, Journal of the Brazilian Society of Mechanical Sciences and Engineering 38(4) (20136) 1155–1164.

Although studies by Shiomi et al [5] have attempted to calculate the residual stress fields from laser sintering processes, few have attempted to model the layer-wise building process due to the complexities introduced by the different states of the materials involved.
Froyen: Rapid Prototyping Journal Vol. 9 (2003), p.314-326
Simchi: Materials Science and Engineering A Vol. 428 (2006), p.148-158
Kruth: Rapid Prototyping Journal Vol. 12 (2006), p.254-265
Abe: International Journal of Machine Tools and Manufacture Vol. 46 (2004), p.1188-1193

To obtain a reliable figure of thermal stress induced by grinding, temperature-dependent properties of workpiece materials were taken into account.
To obtain a reliable figure of thermal stress, temperature-dependent properties of work materials should be taken into account.
Zhang, Residual stress in ground components caused by coupled thermal and mechanical plastic deformation, Journal of Materials Processing Technology 95 (1995)238-245
Chandrasekar, Simulation of thermal stress due to grinding, International Journal of Mechanical Sciences 43 (2001)831-851
Hamdi, Hassan Zahouani, Jean-Michel Bergheau, Residual stress computation in a grinding process, Journal of Materials Processing Technol [12] ogy 147 (2004)277-285.