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Narutaki, High speed finishing for guide ways of machine tools, Journal of the Japan Society for Precision Engineering (1999)
Sedov, Milling grey iron with ceramic-tipped face mills, Soviet Engineering Research 1(5) (1981) 87-88
Ben Salem, Tool-life model for ceramics through experimental design in high speed machining (HSM) of 36NiCrMo16 steel, International Review of Mechanical Engineering 7(3) (2015) 499-506
Khalimonenko, Forecasting performance of ceramic cutting tool, Key Engineering Materials 736 (2017) 86-90
Khalimonenko, Quality assurance during milling of precision elements of machines components with ceramic cutting tools, International Review of Mechanical Engineering 12(5) (2017) 437-441.

Introduction Brazil is among the four largest producers of traditional ceramics worldwide, however, almost all the ceramic industry still does not have a plan to reuse one of their main waste: the pitcher.
Abadir: International Journal of Applied Engineering Research Vol. 11 (4) (2016), p. 2680
Yilmaz: 3rd International Conference on Industrial and Hazardous Waste Management.
Norton: Processing Glass and Glass-Ceramics, in: Ceramic Materials: Science and Engineering (Springer, New York, 2007)
Klein: Journal of Material Processing Technology.

Microstructure Observation and Analysis of Sintered SiC Ceramics by SEM Jiang Yonga, Wu Lanerb and Huang Zhenkunc School of Materials science & engineering, Beifang University of nationalities, China ajynxyc@126.com (Corresponding author), bLanerwu@126.com, czkh_08@163.com Keywords: SiC ceramics, microstructure, EDX elemental map, sintered defects, ununiform.
Fig. 7 Yolky or layer cake of the sample Conclusions (1) The microstructure of LPSed ceramic is quite different from that of SSSed ceramic.
Guette, et al., Mechanical and microstructural change in 0-90º SiC/ MAS-L composites after thermal ageing: vacuum, Ar and CO atmosphere, Journal of the European Ceramic Society. 19 (1999) 17-31
Guo, Effect of sintering additives on microstructures and mechanical properties of short-carbon-fiber-reinforced SiC composites prepared by precursor pyrolysis–hot pressing, Ceramics International. 32 (2006)929–934
Neethling, TEM analysis of planar defects in β-SiCInt, Journal of Refractory Metals & Hard Materials. 27 (2009) 443–448

Acta Polytechnica, Mechanical Engineering Series 1, Royal Swedish Academy of Engineering Science. (1947) [2] E.
Ragen: Journal of Tribology, Vol. 112 ( 1990), pp.304-308
Barnsby: Journal of Engineering Tribology, Vol. 215(2001), p.577-595
Zhao: Journal of Tribology, Vol. 120 (1998), pp.134-139
Kang and et al.: Tribology International, Vol. 39 (2006), pp.1413-1420

Riella, Pyroplasticity in porcelain tiles, Materials Science and Engineering A 427 (2006) pp. 316-319 [7] T.
Kara, Effect of spodumene addition on pyroplastic deformation of porcelain stoneware, Journal of Ceramic Processing Research. 15 (6) (2014) pp. 486-491
Wang, Dolomite, wollastonite and calcite as different CaO sources in anorthite-based porcelain, Ceramics International 39 (2013) pp. 4953-4960
Zanelli, Pyroplastic deformation of porcelain stoneware tiles: Wet vs. dry processing, Journal of the European Ceramic Society 37 (1) (2017) pp. 333-342
Ozel, Evaluation of pyroplastic deformation in sanitaryware porcelain bodies, Ceramics International 38 (2012) pp. 1399-1407.

Influence of Titanium Ion Doped Amount on the Dielectric Property of BMNT Ceramics Xinyou Huang 1,2, a, Yuan Zuo 1,2,b and Chunhua Gao1,c 1 School of Materials Science and Engineering, Jiangsu University, Zhenjiang 212013, China 2 Jiangsu Province Key Laboratory of High-end Materials, Zhenjiang 212013, China ahuangxy@ujs.edu.cn, b451909269@qq.com, chxy@ujs.edu.cn Keywords: ceramics; titanium ion doped; Bi2 (Mg1/3Nb2/3)2 O7; dielectric property; high frequency Abstract.
The Bi-based pyrochlore material has been one of the hot points in the international academic research field in the recent years because that it is a kind of pyrochlore structure materials of new dielectric materials, which has low sintered temperature, high dielectric constant and low dielectric loss.
Huang, X.Yao: Journal of American Ceramic Society Vol. 76 (1993), p. 2129 [4] S.
Lin: Journal of European Ceramic Society Vol. 23 (2003), p. 873 [5] E.A.
Kanenko: Journal of the European Ceramic Society Vol. 26 (2006), p. 1929 [6] H.T.

Ceramic №2 consisted of a plate made of VOK-60 (K01 – group ISO) tool ceramic (Al2O3+TiC), also conductive.
El-Menshawy, Monitoring the E.D.M. process by radio signals, International Journal of Production Research. 16 No. 5 (1978) 353-363
Kozochkin, Improvement of Machining by the Vibroacoustic Diagnostics of Electrophysical Processe, Russian Engineering Research. 35 No. 11 (2015) 801-806
Porvatov, Monitoring of Electric Discharge Machining by Means of Acoustic Emission, Russian Engineering Research. 36 No. 3 (2016) 244-248
Journal of Friction and Wear. 35 No. 5 (2014) 389-395

Experimental procedures Based on methodological studies for qualification of solid wastes as engineering alternative materials, [8] and in the characteristics of the process of lost-wax casting and the waste generated by the ceramic shell (ceramic mold), it was established a sampling plan (NBR 10007/04 - sampling of solid wastes) in order to ensure the required representativity for the proposed valorization.
Seadon: Journal of Cleaner Production Vol. 18 (2010), p. 1639
Tan: Ceramics International Vol. 30 (2004), p. 869
Hotza: Advances in Materials Science and Engineering Vol. 2012 (2012), p. 9
Santos: Colloidal processing of ceramic components for gas burners.

Alberto Lamego 2000, 28013-602, Campos dos Goytacazes-RJ, Brazil 2- IME - Military Institute of Engineering, Department of Materials Science, Praça General Tibúrcio, 80, 22290-270, Rio de Janeiro, Brazil.
Raimondo: Journal of the European Ceramic Society Vol. 22 (2002), p. 1729
Monteiro: Journal of the European Ceramic Society Vol. 26 (3) (2006), p. 305
Venugopal: Ceramics International Vol. 29 (2003), p. 907
Senapati: Journal of the American Ceramic Society Vol. 81 (1) (1998), p. 3

Table 1: Shock test results of capacitors using different potting materials on the ceramic base Potting Materials Shock value Silicone Paraffin wax Epoxy resin 5000g without abnormal without abnormal without abnormal 10000g upper and lower ceramic layers of sample appeared fragmentation without abnormal without abnormal 15000g ceramic sample appeared fragmentation upper and lower ceramic layers of sample appeared fragmentation without abnormal 20000g ceramic sample appeared fragmentation ceramic sample appeared fragmentation ceramic sample appeared fragmentation When using the silicone as potting material, the shock resistance capacity of capacitors on the ceramic base is in 5000g above, but the upper and lower ceramic layers of sample appeared fragmentation when the shock value rose to 10000g, and ceramic sample appeared fragmentation at the shock value of 15000g.
Yu: International Journal of Impact Engineering Vol.36 (2009), p. 1377 [5] Y.S.
Huang: Fourth International Microsystems, Packaging, Assembly and Circuits Technology Conference (2009), p. 385 [6] P.
Yang: Fifth International Conference on Electronic Packaging Technology (2003), p. 275 [7] C.S.
Xu: Journal of Projectiles, Rockets Missiles and Guidance Vol.31 (2011), p.151 [10] N.