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Shen, Advanced Engineering Materials 3 (2001), 357-370
Rao, Sadhana-Academy Proceedings In Engineering Sciences 28 (2003), 209-246
Kim, Metals and Materials International, 8 (2002), 571-575
[46] ASM International.
Grant, Materials Science and Engineering, 44 (1980), 213-227.

Less information about the applicability of such tests is available for non-metallic materials like fibre- reinforced ceramics.
(Eds.), High temperature materials for power engineering, Kluwer Academic, (1990) 1417-1430
Hoffelner, Oxide dispersion strengthened steel irradiation with helium ions, Journal of Nuclear Materials 352 (1-3) (2006) 57-61
Hoffelner, Irradiation creep and precipitation in a ferritic ods steel under helium implantation, Journal of Nuclear Materials 373 (1-3) (2008), 22-27
Victoria,Assessment of the constitutive properties from small ball punch test: experiment and modeling, Journal of Nuclear Materials, 335 (3) 1 (2004) 366-378

A U.S. research team led by engineer R.L.
The cutting tool materials used in high-speed cutting should be of high hardness and toughness, and currently such materials are mainly polycrystalline diamond (PCD), cubic boron nitride (CBN), ceramics, metal ceramics and coatings. 1.
The exploration of cutting tool materials has achieved great development in China, especially the ceramic cutting tools with the same mechanical and cutting properties as international tools and some even better.
With the development of supporting technology of CNC, microelectronic technique, new material, and development engineering, HSC will surely have further development.
[6] YUAN Feng, WANG Tai-yong, WANG Shuang-li: Machine Tool & Hydraulics, No. 12(2005), p.8-11 [7] Yu Qi-xun, Liu Bin, Ma Li-lin: Modern Manufacturing Engineering, No.6 (2008), p.1-7 [8] Smith S, Tlusty J: Journal of Manufacturing and Engineering, Vol.119(1997), p.664-666 [9] WANG Tongyue: Mechanical & Hydraulic, No.12(2004), p.4-6 [10] YU Qi-xun: Tool Engineering, Vol.38, No.11(2004), P.9-12 [11] LI Chang-he, DING, Yu-cheng, HOU Ya-li: Automobile Technology & Material, No.3(2009), p.47-53

Investigation on the effect of multi wall carbon nano tubes in Wire Electrical Discharge Machining of hybrid Metal Matrix Composites S.Ramesh1,a *, N.Natarajan2,b, V.Krishnaraj3,c and K.Sathish Kumar4,d 1,4 Department of Mechanical Engineering, Bannari Amman Institute of Technology, Sathyamangalam, Tamil Nadu, India 2 Department of Mechanical Engineering, Sri Ranganathar Institute of Engineering and Technology Coimbatore, Tamil Nadu, India 3 Department of Production Engineering, PSG College of Technology, Coimbatore Tamil Nadu, India assrames@gmail.com, bn_natarajan@rediffmail.com, cvkr@mec.psgtech.ac.in, dsathsksr@gmail.com Keywords: machining, hybrid MMCs, carbon nano tube, CNT, recast layer, WEDM Abstract.
Harris, Engineering Composite materials, The Institute of Materials, London (1999)
Vanmeensel, Influence of the type and grain size of the electro-conductive phase on the Wire-EDM performance of ZrO2 ceramic composites, CIRP Annals - Manufacturing Technology 57 (2008) 191–194
[4] Yu Huang, Wuyi Ming, Jianwen Guo, Zhen Zhang Guangdou Liu, Mingzhen Li and Guojun Zhang, Optimization of cutting conditions of YG15 on rough and finish cutting in WEDM based on statistical analyses, International Journal of Advanced Manufacturing Technology (2013)
[7] M.Mohammadzadeh Sari, M.Y.Noordin and E.Brusa, Role of multi-wall carbon nanotubes on the main parameters of the electrical discharge machining (EDM) process, International Journal of Advanced Manufacturing Technology (2013) 68: 1095-1102.

[2] Lin Li, The advances and characteristics of high-power diode laser materials processing, Optics and Lasers in Engineering. 34 (2000) 231-253
Comparison of predictions with measured surface temperature histories, International Journal of Heat and Mass Transfer. 43 (2000) 1409-1424
Shin, Thermal modeling for laser assisted machining of silicon nitride ceramics with complex features, ASME Journal of Manufacturing Science and Engineering. 128 (2006) 425-434
Shin, Predictive modeling of laser hardening of AISI5150H steels, International Journal of Machine Tools and Manufacture. 47 (2007) 307-320
Engineering guide of training and Toolbox[M].

Hotza : Materials Science and Engineering, Vol.
Elinwa : Civil Engineering and Environmental Systems, Vol. 23 (2006), p. 263-270
Nilpairach : Journal of Metals, Materials and Minerals, Vol. 18 (2008), p.1-7
[8] International Organization for Standardization.
McColm Dictionary of ceramic science and engineering. 2nd ed.

Silica, being a ceramic, remains inert and is itself unaffected by the acidic medium during the tests.
Journal of composite materials, vol.43, No.06/2009
International symposium of research students on material science & engineering, Dec 20-22, 2004, Chennai
Puz, Improved engine performance via use of Nickel ceramic composites (NCC coat), SAE International Feb 28-Mar 3, 1994
[15] K.Maile, “Qualification of Nickel-based alloys for advanced ultra super critical plants, Sciverse Science Direct, Procedia Engineering, 55(2013), 214-220.

Modeling of Delamination in Drilling of Particleboard (PB) Composite Panels T.N.Valarmathi1, a* 1Department of Mechanical & Production Engineering,Sathyabama University, Chennai avalarmathi.tn@gmail.com Keywords: PB Composite, Drilling, Modeling, Delamination Abstract.
Tosun, Determination of optimum parameters for multi performance gharacteristics in drilling by using grey relational analysis, International Journal of Advanced Manufacturing Technology, 28 (2006) 450–455
[5] C.C.Tsao, Thrust force and delamination of core-saw drill during drilling of carbon fiber reinforced plastics (CFRP), International Journal of Advanced Manufacturing Technology, 37 (2008) 23-28
Senthilkumar, Modeling and analysis of thrust force and torque in drilling GFRP Composites by multi-facet drill using fuzzy logic, International Journal of Recent Trends in Engineering, 1(2009) 66-70
Sekar, Modeling of thrust force in drilling of plain medium density fiberboard (MDF) composite panels using RSM, Proceedia Engineering, 38 (2012) 1828-1835.

Different chemical compositions and structures of new ceramic materials have determined their different special properties and functions, according to different performances, this kind of ceramics can be applied in machinery, electron, chemical industry, metallurgy, energy, medicine, laser, nuclear reaction, aerospace and other aspects as engineering structural materials and functional materials [7].
International Journal of Plasticity.
Packaging Engineering.
[7] Zhao Mingzhen and Zhou Liuyu: Study on the development of advanced ceramics and its adaptation to Environmental Protection.
Journal of the graduates.

Prepartion and Properties of Zinc-doped Hydroxyapatite Whisker Duancheng Wang1, Tingting Yan1, Weibo Zhu1, Minghua Huang2,, Qinghua Chen1,* 1Faculty of Materials Science and Engineering, Kunming University of Science and Technology, 2Faculty of Mechanical and Electrical Engineering, Kunming University of Science and Technology.
Soc, 1998, 81(6):1665-1668 [3] Bojan Jokic Miodrag Mitric,Velimir Radmilovic, Sasa Drmanic, Rada Petrovic, Djordje Janac kovic.Synthesis and characterization of monetite and hydroxyapatite whiskers obtained by a hydrothermal method[J].Ceramics International,2011,37:167-173 [4] Muller F.A, Gbureck U, Kasuga T, etal.
Bulletin of Chinese Ceramic Society, 2000(3): 36-39
Journal of Salt Lake Research, 2003,1l(4):57-66
Journal of Biomedical Materials Research, 2002, 59(2):312–317