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The machining efficiency of ceramic balls is very low because the hardness of engineering ceramic materials is very high, and the materials are difficult to be machined, being a main reason that why the cost of ceramic balls is so high.
Jin, et al: Journal of Materials Processing Technology Vol. 129 (2002), p. 423 [3] S.
Ona: Journal of the Japan Society for Precision Engineering Vol. 64 (1998), p. 1816 (in Japanese) [4] T.H.C.
Yoon: Tribology International Vol. 28 (1995), p. 41 [5] Y.Q.
Lin, et al: Chinese Journal of Mechanical Engineering Vol. 9 (1996), p. 45

AlN-TiB2 based self-lubricating ceramic insert fabricated by spark plasma sintering for dry turning applications Nambiraj K M1,a*,Rajeswari R1,b, Madhavan S2,c 1Department of Mechanical Engineering, SSN College of Engineering, Chennai,603110, India 2Manufacturing Engineering section, Department of Mechanical Engineering, Indian Institute of Technology Madras, Chennai, 600036, India anambiraj14@gmail.com, brajeswarir@ssn.edu.in, cmadhavan.tes@gmail.com Keywords: Ceramic insert, AlN-TiB2, Spark plasma sintering, Hardened steel, Dry turning Abstract This paper reports the development of a cutting tool insert prepared by consolidation, followed by Spark Plasma Sintering (SPS) of TiB2 (Titanium diboride) particles processed through an in-situ reaction and AlN (Aluminium nitride) manufactured by the direct nitridation process.
In Ceramics; Charting the future, Techna.
Venkateswaran, Bikramjit Basu, Doh-Yoen Kim, Spark plasma sintering of TiB2 –Based composites, International Symposium of Research Students on Material Science and Engineering,Chennai, India, 2004, December 20-22 [9] Jing Zhang, Antonios Zavaliangos, Joanna R.
No: 248,672 [12] Manoj Kumar Gupta, Pawan kumar Rakesh, Effects of Reinforced Particulates on Properties of Aluminium Metal Matrix Composite, AISECT University of Journal, Vol.
III/Issue VI, (2014) ISSN: 2278-4187 [13] Xiang-Yu Zhang, Shou-Hong Tan, Dong-Liang Jiang, AlN-TiB2 composites fabricated by spark plasma sintering, Ceramic International, 31 (2005) 267-270 [14] K.

China 2 College of Mechanical Engineering, Beijing University of Technology, Beijing 100022, P.
Reddy, Nonlinear transient thermoelastic analysis of functionally graded ceramic-metal plates, International Journal of Solids Structures 35(33), p4457-4476, 1998
Reddy, Analysis of functionally graded plates, International Journal for Numerical Methods in Engineering 47, p663-684, 2000
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Computer Methods in Applied Mechanics and Engineering. in press [9] Yuxin Hao, Wei Zhang, Lihua Chen and Jigang Lei, Nonlinear Oscillations, Bifurcations and Chaos of Functionally Graded Materials Plate, Journal of Sound and vibration, in press

The other international case defined concerns to the reality of Germany, Austria and Switzerland.
Rodrigues, “A critical evaluation of Brazilian life cycle assessment studies,” The International Journal of Life Cycle Assessment, (Jun. 2013) p. 9
Künniger, “Manufacturing and Disposal of Building Materials and Inventorying Infrastructure in ecoinvent (8 pp),” The International Journal of Life Cycle Assessment, vol. 10, no. 1, pp. 35–42 (Nov. 2004)
Menzies, “Life Cycle Energy and Environmental Analysis of Partition Wall Systems in the UK,” Procedia Engineering, vol. 21, pp. 864–873 (Jan. 2011)
,” Journal of hazardous materials, vol. 184, no. 1–3, pp. 788–97 (Dec. 2010)

Eckert: International Journal of Heat and Mass Transfer, Vol. 37 (1994), p.3
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Chulham: International Journal Heat and Mass Transfer, Vol. 49 (2006), p. 3691
Kapatkar: International Journal of Engineering trends and Technology, Vol. 25 (2007), p. 35 [18] B.

Dolata Silesian University of Technology, Faculty of Materials Engineering and Metallurgy, Krasińskiego 8, 40-019 Katowice, Poland anna.dolata@polsl.pl Keywords: aluminum matrix composites, ceramic preform, centrifugal casting, structure.
Experimental methods and materials The investigated composite materials were produced in the Silesian University of Technology at the Faculty of Materials Engineering and Metallurgy.
The Al2O3 porous ceramic was performed at the Institute of Ceramics and Building Materials in Warsaw [2].
Dyzia, Fabrication of aluminium composites reinforced with powders and ceramic preforms by a centrifugal process, Proc. 19th International Conference on Composite Materials, ICCM 19 Montreal, Canada, 2013
Samsonowicz, Technology and mechanical properties of ceramic preforms for composite materials, Journal of Materials Processing Technology 106 (2000) 119-122

Study on The Ductile-Mode Milling of Brittle Ceramics Xiang Cheng1, a, Bin Gao2, b, Junying Liu3,c and Xianhai Yang4,d 1School of Mechanical Engineering, Shandong University of Technology, Zibo, 255049, China 2School of Mechanical Engineering, Wenzhou Vocational & Technical College, 325035, China 3 School of Mechanical Engineering, Shandong University of Technology, Zibo, 255049, China 4 School of Mechanical Engineering, Shandong University of Technology, Zibo, 255049, China ahappychengx@yahoo.com.cn, bgaobin77@163.com, cljy58@163.com, dyxh@sdut.edu.cn Keywords: Ductile-mode milling, Ceramics, Micro/nano machining Abstract.
The mask based technology has the limitations of fabricating 3D structures [1, 2] and mechanical micro engineering is an easy and cheap way to fabricate microstructures [3].
By the given properties of the ceramics, dc is calculated as 1.2 µm.
Schubert, Microstructure grooves with a width of less than 50 micro cut with ground hard metal micro end mills, Precision Engineering, 23(4) (1999) 229-235
[6] Rusnaldy, Tae Jo Ko, Hee Sool Kim, Micro-end-milling of single-crystal silicon, International Journal of Machine Tool and Manufacture, 47 (2007) 2111-2119.

Preparation and Characterization of Al2O3-Kaolin Composite Porous Ceramic Used as Ceramic Membrane Support Qibing Chang1, a, Ke Yang1, Xia Wang2, Kekai Cheng1, Yongqing Wang1 and Jian-er Zhou1 1 College of Materials Science and Engineering, Jingdezhen Ceramic Institute, Jingdezhen 333001, China 2College of Science and Art, Jingdezhen Ceramic Institute, Jingdezhen 333001, China a changqb1258@hotmail.com Keywords: Porous Ceramic; Sintering-aid; Ceramic membrane; Cordierite; Kaolin Abstract.
Experimental Preparation of ceramic membrane supports.
The pore size distribution is very sharp, implying that the porous ceramic is suit for ceramic membrane support.
Acknowledgements The authors gratefully acknowledge the financial support provided by the National Natural Science Foundation of China (No. 51062006, 51262013), the Key Project of Chinese Ministry of Education (No. 211092), the Sino-French International Science and Technology Cooperation Program (No. 2011DFA52000) and the Natural Science Research Project of Jiangxi Education Department (No.
Meng, Preparation of cordierite-based porous ceramic micro- filtration membranes using waste fly ash as the main raw materials, Journal of Membrane Science, 285(1–2), (2006), 173–181.

The Canadian Journal of Chemical Engineering,2016,94(5)
Journal of Electronic Materials,2015,44(6)
Journal of electronic materials, 42(7), 1522-1528
Journal of Ceramics, 2
In Zhongguo Dianji Gongcheng Xuebao(Proceedings of the Chinese Society of Electrical Engineering) (Vol. 25, No. 24, pp. 118-121)

Song1, a * and Guochen Du1,b 1 School of Mechanical Engineering, Weifang college, Weifang 261061, China asxy_100@163.com*, bwfuduguochen@163.com Keywords: efficient cutting; tool life; cold roll; wear mechanism Abstract.
Proceedings of SPIE the International Society for Optical Engineering. 2005
International Journal of Advanced Manufacturing Technology . 2007
Journal of Materials Processing Technology, 2007, 166(1):3 21-329
Precision Engineering, 2005, (29): 113-123