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Research on Process Parameters Intellectual Decision Support System for High Efficiency and Precision CMP Function Ceramics Zihua Hu 1,2, a, Manke Gao 1, b, Julong Yuan 2, c, Xiangjun Yang 1, d 1 School of Mechanical Engineering, Xiangtan University, Xiangtan 411105, China 2National Engineering Research Center for High Efficiency Grinding, Hunan University, Changsha 410082,China aiamtxtu@163.com, bgmkproe@163.com, cjlyuan@zjut.edu.cn, dyxj993@163.com Keywords: Function ceramics, CMP, Intellectual decision, Process parameters database Abstract.
And then, referring to the technical manuals, experiences of engineering workers and experimental data, the process parameters database for function ceramics in CMP has been built with Microsoft software Access.
And then, referring to the technical manuals, experiences of engineering workers and experimental data, the process parameters database for function ceramics in CMP has been built by Microsoft software Access.
References [1] Ohmori H, Nakagawaa T: Annals of the CIRP Vol. 329-334(1990), p. 39 [2] Julong Yuan, Shenghui Liu, Xing Tong: Journal of Zhejiang University of Technology Vol. 243-249(2000), p. 28, (in Chinese) [3] National Engineering Research Center for High Efficiency Grinding of Hunan University: International Academic Developments Vol. 50-51(2009), p. 3 [4] Lierun Rong: Aviation Precision Manufacturing Technology Vol. 4-8(2005), p. 41,(in Chinese) [5] Lierun Rong: Mechatronics Vol. 6-10(2003), p. 2, (in Chinese) [6] Watanabe J, Suzuki J: Ann.
CIRP Vol. 325-329(1977), p. 26 [8] Wang Y, Zhou X J, Hu D J: International Journal of Machine Tools & Manufacture Vol. 333-342(2006), p. 46, (in Chinese) [9] Julong Yuan, Shen Dong, Ka sai Toshio: IMCC’95, Harbin China Vol. (1995), (in Chinese) [10] Kejun Xiang, Zhanqiang Liu, Xing Ai: Computer Integrated Manufacturing Systems Vol. 420-427(2006), p. 12, (in Chinese)

An experimental study was carried out to investigate the force in drilling of engineering ceramic with a brazed diamond tool.
Compared with many researches in the grinding field, the engineering ceramic drilling was littler discussed by researchers [1-3].
This present paper was devoted to investigate the machining forces in the drilling of engineering ceramics with brazed diamond tools.
Azuma: International Journal of Machine Tools and Manufacture, Vol.45 (2005) No.7-8, pp. 891 [4] Ken-ichi Ishikawa, Hitoshi Suwabe, Tetsuhiro Nishide and Michio Uneda, Precision Engineering, (1998) No.22, pp. 196 [5] Z.C.
Treadwell: International Journal of Machine Tools & Manufacture, (2005) No.45, pp. 1402 [6] A.K.

Study on the Prediction of Surface Roughness of Zta Ceramics under Ultrasonic Assisted Grinding Yanyan Yan1,a, Junli Liu1,b, Bo Zhao1,b 1School of Mechanical Engineering, Henan Polytechnic University, Henan,454003,China ayyy@hpu.edu.cn, bljl@hpu.edu.cn, bzhaob@hpu.edu.cn Keywords: Grinding; Ceramics; Surface Roughness; Prediction Model Abstract.
So the prediction model provides a new and efficient method for intelligent information processing, and it could be applied in modeling and real-time control etc, and it is possible to be widely applied in engineering.
[2] Yanyan, Yan, Bo Zhao and Junli Liu: Key Engineering Materials, Vol.416(2009), 619-623
Wu: Key Engineering Materials, Vol.315-316 (2006), pp314-318
Liu: International Journal of Advanced Manufacturing Technology, Vol.43 (2009) No.5-6, pp462-467

Advanced engineering ceramics are more and more widely employed in modern industries because of their excellent mechanical properties such as high hardness, high compressive strength, high chemical and abrasive resistance.
Introduction Insulating ceramics materials have been widely used in engineering [1].
Tani: International Journal of Electrical Machining, (1997) No.2, pp.25-30
Muttamara: International Journal of Electrical Machining, (2003) No. 8, pp.57-61
Lu: Process of Precision Engineering and Nano Technology, Key Engineering Materials Vol. 339 (2007), pp.281-285.

It is difficult to control the machining quality for engineering ceramics due to due to the randomness and uncontrollability of edge chipping.
References [1] Pfefferkorn FE, Shin YC, Tian Y: Journal of Manufacturing Science and Engineering Vol. 126(2004), p.42 [2] Anderson M, Patwa R, Shin YC: International Journal of Machine Tools and Manufacture Vol. 46(2006), p.1879 [3] Skvarenina S, Shin YC: International Journal of Machine Tools and Manufacture Vol.46(2006), p.7 [4] Konig W, Zaboklicki A K: NIST Special Publication, Gaithersburg, MD Vol. 847 (1993), p.455 [5] Yang B, Lei S: Int.
Modelling and Simulation in Materials Science and Engineering，Vol. 17(2009), p.043001 [8] Cao Y.
Engineering Failure Analysis，Vol. 8(2001), p.325 [9] McCormick N, Almond E.
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Modeling prestressed ceramic and its effect on ballistic performance, International Journal of Impact Engineering, 31 (2005) 113-127
International Journal of Impact Engineering, 15 (2005) 605-618
Ballistic performance of confined 99.5%-Al2O3 ceramic tiles, International Journal of Impact Engineering, 19 (2005) 703-713
The ballistic performance of confined AL203 ceramic tiles, International Journal of Impact Engineering, 12 (1992) 167-187
Failure phnomenology of confined ceramics targets and impacting rods, International Journal of Impact Engineering, 9 (1990) 263-275.

Effect of Additives on Thermal Conductivity of Si3N4 Ceramics Zihao Chen1,a, Qiang Gu2, Weikui Ma1, Guoqi Liu1,b* 1State Key Laboratory of Advanced Refractories, Sinosteel Luoyang Institute of Refractories Research Co., Ltd., Luoyang 471039, China 2School of Materials Science and Engineering, Zhengzhou University, Zhengzhou 450001, China a635098742@qq.com, bliugq@lirrc.com Keywords: Silicon nitride ceramics; additives; thermal conductivity Abstract.
[2] Haggerty J S, Lightfoot A ,Opportunities for Enhancing the Thermal Conductivities of SiC and Si3N4 Ceramics Through Improved Processing, Ceramic Engineering and Science Proceedings, Volume 16, Issue 4,2008:475-487
Regina, Processing of micro-components made of sintered reaction-bonded silicon nitride, Ceramics International, (2009): 2577-2585
Jae-Woong, et al, Microstructure and thermal conductivity of sintered reaction-bonded silicon nitride: The particle size effects of MgO additive, Advances in Materials Science and Engineering, 2018, 2018:1-5
[45] Lee H M , Lee E B , Kim D L , et al, Comparative study of oxide and non-oxide additives in high thermal conductive and high strength Si3N4 ceramic, Ceramics International, 2016, 42(15):17466-17471.

Information Service Platform for region oriented to Ceramic Industry Cluster Huiying Li Information Engineering College, Jingdezhen Ceramic Institute, China lhyjdzty@126.com Keywords: Ceramic industry; Enterprise clusters; information service platform for region Abstract.
By analyzing the characteristics of China’s ceramic industry and ceramic industry cluster, the lack of China’s ceramic industry was found.
Whether it is building ceramics or art ceramics, formula is their core technology in the ceramic industry.
[4] Dan Bin, Hu Jun, Zhang Xu-mei:Industrial Engineering Journal Vol.13(2010),p.69-73(in Chinese) [5] Cheng Gongxun,Liu Bingxiang,Hong Jing:China Ceramics Vol.42(2006),p.39-40(in Chinese)
[7] Marc Poulin,Benoit Montreuil:European Journal of Operational Research Vol.169 (2006), p.996-1009 [8] Zhou Hong-gen, Jing Xu-wen: Machinery Design & Manufacture Vol.11(2009), p.253-255 (in Chinese) [9] Yao Jian-rong,ChenYuan-gao:Collected Essays on Finance and Economics Vol.130 (2007), p.92-96 (in Chinese) [10] Jin Chen,Weiwei Ye:Proceedings of the 4th IEEE International Conference on Management of Innovation and Technology,ICMIT 2008,p.21–24.

Electronic Journal of Geotechnical Engineering 17, pp 1807-1816 [11] K.
Somsuk (2010), An alternative sludge waste management technology in ceramic industry for synthesis zeolite NaA (feasibility study) 2nd International Conference on Computer Engineering and Technology (ICCET), vol 5 pp 416-419
Journal of Civil Engineering 16(5), pp 809-815 [18] S.S.
International Sustainability And Civil Engineering Journal 1(2), pp 19-27
International Journal of Sustainable Construction Engineering & Technology 3(1), pp 26-44.

Seven typical engineering ceramic materials are analyzed using the method, the objective and comprehensive results are gained.
The sample matrix of ceramic mateials performance parameters can be presented as (1) Where m is the number performance parameters of ceramic material, n is the number of ceramic materials.
The evaluation results of workability of ceramic materials are objective, stable and reasonable using this method, it can be applied as a valid refrence to design ceramic materials and select machining parameters of ceramic materials.
Rao: International Journal of Machine Tools and manufacture.
[5] Yu A B, Chen Y, Jia DW: Key Engineering Materials.