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%Mo composite ceramics added with 4 vol.
References [1] DAVID K B M: IEEE International Vacuum Electronics Conference, California, USA, 2002, p.32 [2] XU Gengfu: J Mater Res, Vol.18(2003) , p.66 [3] Shoichi Kume, Masaki Yasuoka, Naoki Omura, et al: International Journal of Refractory Metals & Hard Materials, Vol. 23(2005), p.382 [4] Takahashi K, Jimbou R: J.
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Hong: Compos.: Part B, Vol. 35(2004), p.49 [15] Chen Y C, Huang C Z, Wang B Y, et al:Materials Science＆Engineering, Vol. 38(2000), p.19 [16] RenZheng Chen, AiLi Cui, XiaoHui Wang, et al : Materials Letters, Vol. 54(2002), p.314

Glass Ceramization as an Alternative Production Route of Forsterite Glass-Ceramics for Possible Multipurpose Uses Taufik Aboud Department of Materials & Metallurgical Engineering, Faculty of Engineering University of Tripoli, Tripoli / Libya t_aboud@yahoo.co.uk Keywords: Glass ceramization, glass-ceramics, forsterite, enstatite, bioceramics Abstract.
Fathi: Ceramics International, Vol. 38 (2012), p. 1325
[11] SONG Kai-Xin, et. al.: International Conference on Electrical and Control Engineering, (2010), p. 5862
Bindra and Shalini Bahel: Journal of Ceramic Processing Research, Vol. 11, No. 3 (2010), p. 316
Aboud: submitted to IOP conference Series: Materials Science and Engineering (2014)

[3] Jonq-Jer Tzen, Shyr-Long Jeng, Wei-Hua Chieng , Modeling of piezoelectric actuator for compensation and controller design, Precision Engineering.27 (2003) 70–86
[4] De Ping Yu, Geok Soon Hong, Yoke San Wong，Profile error compensation in fast tool servo diamond turning of micro-structured surfaces, International Journal of Machine Tools & Manufacture.52 (2012) 13–23
[6] Jeong-Du Kim, Dong-Sik Kim, Waviness compensation of precision machining by piezoelectric micro cutting device, International Journal of Machine Tools & Manufacture.38 (1998) 1305-1322
Holesovsky, Wave-shift and its effect on surface quality in super-abrasive grinding, International Journal of Machine Tools & Manufacture.41 (2001) 979–989
[16] Chao Chen, Jinsong Zeng, Chunsheng Zhao, Dynamic model of traveling wave-type rotary ultrasonic motor, Chinese Journal of Mechanical Engineering . 2006 , 42(12):76-28

China 2 Special Glass Engineering Research Center of Hainan Province, AVIC GLASS-AVIC(Hainan)special Glass Material Co..LTD, Hainan Laocheng 571924, P.R.
References [1]Łączka, Katarzyna, Cholewa - Kowalska, Borczuch - Łączka, Maria, Thermal and spectroscopic characterization of glasses and glass–ceramics of Li2O–Al2O3–SiO2 (LAS) system, Journal of Molecular Structure, 1068 (2014) 275-282
[2]A.Hu, K.Liang, F.Zhou, G.Wang, F.Peng, phase tranformations of Li2O-Al2O3-SiO2 glasses with CeO2 addition, Ceramics International 31(2005) 11-14
[3] Ping Lu, Yong Zheng, Jinshu Cheng, Dongyun Guo, Effect of La2O3 addition on crystallization and properties of Li2O-Al2O3-SiO2 glass-ceramics, Ceramics International, 39 (2013) 8207-8212
Lecomte, Effect of TiO2 content on the crystallization and the color of (ZrO2,TiO2)-doped Li2O-Al2O3-SiO2 glasses, Journal of Non-Crystalline Solids, 384 (2014) 15-24

Study on the Composite Strengthening Effect of Talc and Kyanite Addition on Corundum–mullite Based Ceramic Foam Shujun Ji 1, a, Xueyi Guo 1, b, Jianxiong Dong 1, c, Peng Su 2, d 1 School of Metallurgical Science and Engineering, Central South University, 932 Lushan south road, Changsha, China, 410083; 2 Baotou Aluminium Company Limited, Baotou ,China, 014046 ajishujun85@sohu.com, bxyguo@mail.csu.edu.cn, cdongjx19670919@vip.sohu.com, dsupeng656@sohu.com Keywords: Ceramic Foam, Foam Impregnation, Tale, Kyanite, Mechanical Property Abstract: Corundum–mullite based ceramic foams were prepared by adopting foam impregnation process with raw talc and kyanite as modifiers.
Introduction Ceramic foams, the third generation porous ceramics with the characteristics of high temperature resistance, good corrosion resistance, high strength and 3D net configuration, are widely used in the fields of chemical engineering, metallurgy, environmental protection, energy, aerospace, photoelectrical sensor, biological materials and so on[1-3].
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of Shenyang Institute of Chemical Technology Vol. 22(2)(2008), p.149-152 [13] D.Cao, K.Mai, L.Ma: Foundry, Vol. (3)(2008), p.35-39 [14] W.Chi, D.Jiang, Z.Huang: Ceramics International, Vol.(30)(2004), p.869-874 [15] H.K.Byung, H.N.Yong: Ceramics International, Vol.(21)(1995), p.381-384 [16] F.R.Mollard, N.Davison: AFS Transactions, Vol.(86)(1978), p.479-486 [17] W.H.Sutton: AFS Transactions, Vol.(93)(1985), p.339-346 [18] F.He, Z.Deng: Bulletin of the Chinese Ceramic Society Vol.(1)(2003), p.26-29
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Study on the Grinding Process of Ceramiczirconia Oxide Rod Shinn-Liang Chang1,a, Dai-Jia Juan1,b, Bean-Yen Lee2,c,You-Jhih Lin1,d 1Department of Power Mechanical Engineering, National Formosa University, No.64, Wunhua Rd., Huwei Township, Yunlin County, Taiwan 2Department of Mechanical and Computer-Aided Engineering, National Formosa University, No.64, Wunhua Rd., Huwei Township, Yunlin County, Taiwan achangsl@nfu.edu.tw, bCorresponding author, juan@nfu.edu.tw, cleebyin@nfu.edu.tw d10054133@gm.nfu.edu.tw Keywords: Hard and brittle materials, ceramic, zirconium oxide, polishing, surface roughness Abstract.
The most general processing method used for the ceramic materials is grinding.
Tricad, “Mechanisms of Material Removal in the Precision Production Grinding of Ceramics”, Journal of Manufacturing Science and Engineering, Vol.199, pp.509-519, 1997
Ngoi, “Material Removal Mechanisms in Precision Machining of New Materials”, International Journal of Machine Tools and Manufacture, Vol.41, pp.1831-1943, 2001
Krajnik, “High-performance Grinding-A Review”, Journal of Materials Processing Technology, Vol.175, pp.278 - 284, 2006.

The first kind of classification, as the general literatures point out, grinding of engineering ceramics exists brittle and ductile (or plastic) deformation removal mode.
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.
Journal of the European Ceramic Society, Sep2009, Vol. 29
International Journal of Machine Tools & Manufacture, May2012, Vol. 56..

The development of SiAlON-based ceramics has shown great impact in the cutting/drilling tool industry and for other engineering applications.
These materials have several engineering applications, such as in turbine blades and cutting tools.
Hampshire, Silicon nitride ceramics – review of structure, processing and properties, Journal of Achievements in Materials and Manufacturing Engineering, 24 (2007) 43-50
Esmaeilzadeh, Superplastic deformation of nitrogen-rich Ca-α-sialon ceramics, Materials Science and Engineering: A, 475 (2008) 81-86
Huang, Microstructure and fracture behavior of β-Si3N4 based nanoceramics, Ceramics International, 37 (2011) 641-645

Quartz ceramic has a great potential use in engineering ceramic materials.
Such ceramics are characterized by their low thermal expansion coefficients, high resistance to thermal shock and good chemical stability, which can be widely applied in engineering materials, such as metallurgy, glass, chemical industry, spacecraft, etc [1].
[4] E.I.Suzdal, A Study of the sintering of modifed quartz ceramics, Refractories and Industrial Ceramics, 1(2006)36-44
Hon, The effect of cristobalite seed on the crystallization of fused silica based cramic Core-A kinetic study, Ceramics International, 2(1995)187-193
Guinea J, Effect of dopants in the luminescent properties of synthetic quartz for Dosimetric purpose, Journal of Materials Processing Technology, 4(2003)871-874

Liu: International Journal of Machine Tools & Manufacture Vol. 43 (2003), pp: 811-823
Rowe: International Journal of Machine Tools & Manufacture Vol. 41 (2001), pp: 1-19
Mccormack: International Journal of Machine Tools & Manufacture Vol. 42 (2002), pp: 53-59
Malkin: Journal of Manufacturing Science and Engineering Vol. 123 (2001), pp: 191-195
Yin: International Journal of Machine Tools and Manufacture Vol. 44 (2004), pp: 1069–1076.