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Class II of fly ash was manufactured by New Materials Company of Yangzhou, with a specific surface area of 458m2/kg.
Recycled aggregate was obtained from demolition debris of concrete specimen provided by Building Materials Lab of Jiangsu Yangjian Group.
Xiao: submitted to Journal of Building Materials (2008) [2] H.
Sun: submitted to Journal of Building Materials (2006) [3] GB/T 50746-2008.
Yodsudjai: submitted to Journal of Materials in Civil Engineering (2003)

Effect of Gamma Radiation on Properties of Cellulose Nanocrystal/ Natural Rubber Nanocomposites Wapoon Tappanawatch1,a, Paweena Prapainainar1,b, Pongdhorn Sae-oui2,c, Surapich Loykulnant3,d, Peerapan Dittanet1,e,* 1Center for Advanced Studies in Industrial Technology, Center of Excellence on Petrochemical and Materials Technology, Department of Chemical Engineering, Faculty of Engineering, Kasetsart University, Bangkok 10900, Thailand 2National Science and Technology Development Agency, Science and Technology Knowledge Services, Khlong Luang 12120, Thailand 3National Science and Technology Development Agency, Natural Rubber Focus Unit, Khlong Luang 12120, Thailand aWapoonnn@gmail.com, bfengpwn@ku.ac.th, cpongdhorn@mtec.or.th, dsurapicl@mtec.or.th, efengppd@ku.ac.th* Keywords: Cellulose nanocrystals, Natural rubber, Nanocomposite, Corncob, Gamma radiation Abstract.
CNCs have attracted attention as reinforcing materials in polymer because of their outstanding strength, high crystallinity, high surface area, and biodegradability.
Therefore, addition of CNC can reinforce and create enhanced materials.
Experimental Materials.
Acknowledgements This research was supported by the Kasetsart University Research and Development Institute (KURDI), the National Metal and Materials Technology Center (MTEC), and the Center of Excellence on Petrochemical and Materials Technology (PETROMAT).

Thermal Conductivity of Composite Silicone Rubber Filled with Graphite/Silicone Carbide HE Yan1, 2,a, WU Xue-sheng2, b and CHEN Zhen-chao2,c 1Shandong Provincial Key Laboratory of Polymer Material Advanced Manufactorings Technology， 2College of Electromechanical Engineering, Qingdao University of Science & Technology, No.69 Song ling Road, Qingdao, Shandong Province, 266061, P.R.China aheyan_sd@163.com, bwxs9872002@163.com, cxiaotun19@163.com Key words: silicone rubber; silicone carbide; graphite; curing agent; thermal conductivity Abstract.
Experimental Materials.
Acknowledgements The authors are thankful for the support in part by Department of Science and Technology of Shandong province, P.R.China for these projects (No. 2008BS04028 and No.2009ZRB01071) and are also grateful to Qingdao Municipal Science and Technology Commission for financial support in part of this project (No. 08-1-3-18-jch) References [1] K.S.Li and Q.Wang: Journal of Functional Materials, Vol. 33(2002), p.136 [2] Y.D.Li, F.F.Yan and Y.Z.Ma: Plastic Industry, Vol.34(2006), p.63 [3] K.M.Yang, F.L.Chen and L.Shen: Rubber Industry, Vol.52(2004), p.118 [4] Y.R.Fang and J.H.Wang: Organosilicon Material, Vol.22(2008), p.100 [5] L.X, Y.D.Tong and Y.D.Hua: Special Purpose Rubber Products Vol. 28(2007), p.55 [6] C.C.Tu, S.H.Qi, W.Y.Zhou, Z,H,Zhao and B.Wu: Rubber Industry Vol. 54(2007), p.93 [7] A.K.Yoong, H.Takuaya and E.Morinobu: Scripta Materialia Vol. 54(2006), p.31 [8] J.J.Wang and X.S.Yi: Composites Science and Technology Vol. 64(2004), p.1623 [9] Agari.Y, Ueda.A and
Tanaka.M: Applied Polymer Science Vol. 40(1990), p.929 [10] M.M.Tang, M.Z.Rong and C.G.Ma:China Synthetic Rubber Industry Vol. 26 (2003), p.104 [11] Agari.Y, Ueda.A and S.Nagai: Applied Polymer Science Vol. 42(1991), p. 1665 [12] Y.He, Z.C.Chao and L.X.Ma: Advanced Polymer Processing (Trans Tech Publications, Switzerland 2009)
[13] Q.Wang, W.Gao and Z.M.Xie: Applied Polymer Science Vol. 89(2003), p.2397 [14] Q.H.Mu, S.Y.Feng and G.Z.Diao: Polymer Composites Vol. 28(2007), p.125 [15] W.Y.Zhou, S.H Qi and H.Z.Zhao: Polymer Composites Vol. 28(2007), p.23 [16] W.Tang, X.Wang and X.L.Cai: New Chemical Materials Vol. 34(2006), p.19 [17] W.Y.Zhou, C.F.Wang, Q.L.An and H.Y.Ou: Journal of Composite Materials Vol. 42(2008), p.173 [18] L.Li and C.G.Wang: Journal of Polymer Bulletin Vol. 7(2007), p.25

Journal of Magnesium and Alloys, 2016, 4(4): 319-25
Materials Research Express, 2018, 5(10): 106512
Materials Research Express, 2018, 5(1): 016506
Journal of Alloys and Compounds, 2018, (738): 224-32
Journal of Materials Research and Technology, 2018.

To high-tech materials are also referred porous ceramic metal, silumin and other fusible materials.
Metal powdes and powder materials.
Journal “World transport”. №2 2012.
Journal “World transport” № 4/2010.
Cutting hard-to-cut materials.

Kim, Smart Materials & Structures, 13 (2004) 1362
KIM, Smart Materials & Structures, 14 (2005) 197
Otero, Journal of Materials Chemistry, 19 (2009) 681
Kaneto, Journal of Materials Chemistry, 14 (2004) 2724
Journal of Materials Chemistry B 1 (2013), 26-38 [20] P.

Electron beam current density of high heat, heat source can be greater than the resistance of the energy density, the evaporation temperature is high, especially for production of high melting point materials and high purity thin film materials, and can have a higher evaporation rate, heat can be directly added to the evaporation surface of the material, and thus high thermal efficiency, heat conduction and thermal radiation losses small, the deposited silicon oxide barrier film was significantly improved.
In recent years, this method is also used to prepare silicon-based materials and silicon thin-film silicon-based materials, silicides, and the structure of these materials and luminescent properties were studied.
JOURNAL OF VACUUM SCIENCE AND TECHNOLOGY, 2005,25(4)293 [19]SUN Y J et al.
Deposition of SiOx diffusion barriers on flexible packaging materials by PECVD[J].
Journal of Non- CrystallineSolids,2001,283:109 [30] WU G M et al.

Recently Adibi-Sedeh and his co-workers [2] extend the application of Oxley ' s model analysis of machining to a broader class of materials beyond the carbon steel used by Oxley.
The Johnson-Cook model is widely used flow stress model for which the coefficients are available for a variety of materials.
Bahr: Manufacturing Science and Engineering, Vol. 125 (2003) No.4, pp.656-666
Davies: International Journal of Plasticity, Vol. 18 (2002) No.4, pp.487-506
Ockendon: International Journal of Plasticity, Vol. 12 (1996) No.7, pp.927-934

After these tests, the main geometrical characteristics are used to mesh the chip and the material around it (figure 1).
The Eulerian formalism allows computing the material flow around the cutting edge.
Feulvarch, Hybrid model for the prediction of residual stresses induced by 15-5PH steel turning, International Journal of Mechanical Sciences. 58 (2012) 69-85 issue 1 [5] F.
Feulvarch, A finite element for laminar flow of incompressible fluids with inertia effects and thermo mechanical coupling, European Journal of Computational Mechanics. 19 (2010) 293-304
Bergheau, 3D simulation of glass forming process Original Research Article, Journal of Materials Processing Technology. 164-165 (2005) 1197-1203 [9] E.

Processing Science of Isotactic Polypropylene Fiber reinforced with Halloysite Nanotubes Based on Masterbatch Dilution Technique Yang Lu1, a, Andre Lee2, b, Xiufang Wen1, c, Pihui Pi1, d, Jiang Cheng1, e and Zhuoru Yang1,f 1 College of Chemistry and Chemical Engineering, South China University of Technology, Guangzhou, China 2 Department of Chemical Engineering & Materials Science, Michigan State University, East Lansing, United States alu.lyang@mail.scut.edu.cn, bleea@egr.msu.edu, cxfwen@scut.edu.cn, dphpi@scut.edu.cn, ecejcheng@scut.edu.cn, fzhryang@scut.edu.cn Keywords: Isotactic Polypropylene, Halloysite Nanotubes, Processing Abstract.
Experimental Materials.
Processed material was then granulated in a mini granulator.
Paulik, Journal Of Macromolecular Science-physics B41 (2002) 833-849.