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Ya-Jing Han at School of Materials Science and Engineering Tianjin University for technical support.
Effect of interfacial structure on the thermal conductivity of carbon nanofibers reinforced aluminum nitride composites, Ceramics International 39 (2013) 3365–3370 [10] S.
Carbon nanofiber reinforced alumina nanocomposites: Fabrication and mechanical properties, Materials Science and Engineering A 447 (2007) 44–50 [11] A.
Effect of carbon nanofibers content on thermal properties of ceramic nanocomposites, Journal of Composite Materials 46(10) (2012) 1229–1234 [12] K.
Mechanical properties of simultaneously synthesized and consolidated carbon nanofiber (CNF)-dispersed SiC composites by pulsed electric-current pressure sintering, Materials Science and Engineering A 458(2007) 216–225

Preparetion of C/SiC Composites by SLA-intergrated Liquid Silicon Infiltration Method Jie Jin1, a, Shenhao Wang2,b College of Mechanical Engineering, Zhejiang University of Technology, Hangzhou, Zhejiang, 310014, china abluejinjie@126.com, bwang-shenhao@163.com Keywords: ceramic,rapid prototype,SiC, phenolic.
[2] CUI Zhizhong, LI Dichen, LI Jishun: Study on Novel Procedure for Complex-shaped SiC Components ( Engineering,China ,2008)
[3] B.Mondal, S.Kundu, A.K.Lohar, B.C.pai: Net-shape Manufacturing of Intricate Components of A356/SiCp Composite through Rapid-prototyping-integrated Investment Casting (Materials Science and Engineering A,2008)
[5] F.J.Clemens, V.Wallquist, W.Buchser, M.Wegmann, T.Graule: Silicon Carbide Fiber-shaped Microtools by Extrusion and Sintering SiC with and without Carbon Powder Sintering Additive (Ceramics International,2007)
[10] CUI Zhizhong, LI Dichen, LI Jishun, DUAN Yugang: Reaction Mechanism of SiC Ceramic Composites Parts Derived from Phenolic Resin Template (Chinese Journal of Mechanical Engineering, 2007)

The hollow RP pattern has been used directly to produce ceramic moulds.
M., N.Saleh: Material and design considerations for rapid manufacturing, International Journal of Production Research 42(22), (2004),4691-4708
Neto: The importance of Rapid Tooling in Product Development, Key Engineering Materials 230-232: 169-172, [2009]
Atzeni : Direct metal rapid casting: Mechanical optimization and tolerance calculation, Rapid Prototyping Journal 15(2009), 238-243
[15] Munish Chhabra and Rupinder Singh, : Experimental investigation of pattern less casting solution using additive manufacturing technique, MIT International Journal of Mechanical Engineering Vol.1, (2011), pp 16-24

Theoretical Analysis and Experimental Investigations of the Frictional Wear Characteristics of Nanometric Zirconia Ceramics Changhe Li1,a, Lingyun Qi1,b, Lingang Li1,c and Yucheng Ding1,d 1School of Mechanical Engineering, Qingdao Technological University, 266033 China aSy_lichanghe@163.com, bChinaren163@126.com, clingang-219@163.com, ddyc@163.com Keywords: Nanometric zirconia; Dental ceramics; Frictional wear characteristics Abstract.
Key Engineering Materials, Vols.259-260 (2004), p.302-306 [2] B.Lin, H.Wu, H.T.Zhu And S.Y.Yu.
Key Engineering Materials, Vols.259-260 (2004), p.211-215 [3] Li Chang-he, Cai Guang-qi, Xiu Shi-chao,et al.
International Journal of Machine Tools & Manufacture, Vol.43 (2003), p. 811-823 [5] C.
Xiu: Key Engineering Materials Vols.375-376(2008), p. 449-453.

Silveira Lira4,h 1Materials Engineering Department, Federal University of Campina Grande, Paraíba, Brazil 2Centro de Ensino Superior e Desenvolvimento, Paraíba, Brazil 3Federal Institute of Campina Grande, Paraíba, Brazil 4Federal University of Pernambuco, Pernambuco, Brazil ahelio.lira@ufcg.edu.br, brosacolima@yahoo.com.br, cilianaguimaraes@hotmail.com, dgelmires.araujo@ufcg.edu.br, ernobregat@gmail.com, fdanielslira@gmail.com, gmoisesnetu@gmail.com, hbrunaslira@gmail.com Keywords: Ceramic membrane; inorganic residue; effluents; porous ceramic.
Titania Ceramic Membrane for Gas Separation, Journal of the American Ceramic Society, 89 (2006) 3187-3193
Ferreira, Use of granite sawing wastes in the production of ceramic bricks and tiles, Journal of the European Ceramic Society, 25 (2005) 1149-1158
Murray, Major kaolin processing developments, International Journal of Mineral Processing, 7 (1980) 263-274
Purkait, Microfiltration of mosambi juice using low cost ceramic membrane, Journal of Food Engineering, 95 (2009) 597-605

Experimental study of rolling contact fatigue life of zirconia ceramic ball Jingling Zhou1,a, Weiming Zuo1,b, Xiaoyang Chen2,c and Guoqing Wu1,d 1School of Mechanical Engineering , Nantong University, Jiangsu, Nantong 226019, P.R.
It was identified by tests that the failure mode of zirconia ceramic balls was surface spall.
The use of ceramic materials for rolling elements has practical advantages.
The fatigue life plot of ZrO2 ceramic balls are shown in Fig.2.
J.J.C.editor, ASTM, Philadelphia,1982), p. 5 [2] T A Harris: ASME Journal of Tribology, Vol.119 (1997), p. 365 [3] M Hadfield and T A Stolarski: Tribology International, Vol.28 (1995), p. 377 [4] Z E.

International journal of cast metals research, 2004, 17(1): 23-7
Study of Interfacial Reaction between TiAl Alloys and Four Ceramic Molds, Rare Metal Materials and Engineering, 2008, 37(6): 0956~0959
Materials Science and Engineering, 2003, 43:1–59
Journal of Materials Science, 1990, 25: 2312-20
Investigation of Interfacial Reaction between High Cr Content Cast Nickel Based Superalloy K4648 and Ceramic Cores, Journal of Aeronautical Materials, 2012, 32(3): 10-22

References [1] Xinli Tian, Junfei Yang, Chao Liu, etal.Study of engineering ceramic machining with a new design of ripple controlled microdetonation of electrode arc striking.
International Journal of Advanced Manufacturing Technology.
Nanogrinding of soft-brittle monocrystalline mercury cadmium telluride using a ceramic bond ultrafine diamond grinding wheel. in:International Journal of Advanced Manufacturing Technology.Jun2012
Surface Integrity in Machining Hard-brittle Materials.Journal of Japan Society for Abrasive Technology, Mar2010
Materials science ＆ Engineering ,Jun 2012,vol 547.

Plasma Physics and Engineering, Institute of Electronics of the Bulgarian Academy of Sciences, Bulgaria.
Idehara, “Fabrication of Unglazed Clay Ceramic Tile using Sago Waste as a Prospective Additive Material with Controllable Milling”, submitting to The Open Materials Science Journal
Idehara, “Fabrication of unglazed ceramic tile using dense structured sago waste and clay composite”, Indonesian Journal of Material Science, vol. 11, no. 2, pp. 79 -82, 2010
Idehara, “Rapid Sintering of Silica Xerogel Ceramic derived from Sago Waste Ash Using Submillimeter Wave Heating of a 300 GHz CW Gyrotron”, submitting to International Journal of Infrared, Millimeter and Terahertz Waves
Monteiro, “Incorporation of the ash from cellulignin into vitrified ceramic tile”, Journal of the European Ceramic Society, vol. 26, pp. 305 – 310, 2006

Sopyan4,f 1Centre of Advanced Manufacturing and Material Processing, Department of Engineering Design and Manufacture, University of Malaya, 50603 Kuala Lumpur, Malaysia 2Ceramics Technology Laboratory, Universiti Tenaga Nasional, 43009 Selangor, Malaysia 3Ceramics Technology Group, SIRIM Berhad, 1 Persiaran Dato Menteri, Shah Alam, Malaysia 4Department of Manufacturing and Materials Engineering, Faculty of Engineering, International Islamic University Malaysia (IIUM), 50728 Kuala Lumpur, Malaysia akityee7@siswa.um.edu.my, bchrisckm@siswa.um.edu.my, cramesh79@um.edu.my, dchouyong@uniten.edu.my, ewdteng@sirim.my, fsopyan@iium.edu.my Keywords: Forsterite, Fracture toughness, Hardness.
Hench, Bioceramics: From concept to clinic, Journal of American Ceramic Society. 74 (1991) 1487-1506
Ceramics International. 33 (2007) 1363-1367
Emadi, Improving degradation rate and apatite formation ability of nanostructure forsterite, Ceramics International. 37 (2011) 2275-2280
Chang, Preparation and characterization of forsterite (Mg2SiO4) bioceramics, Ceramics International. 33 (2007) 83–88