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Muthu Kumar1,e 1 Department of Mechanical Engineering, Kalasalingam University, Krishnankoil – 626126, India athirumalaikumaran@yahoo.com, buthaykumar@gmail.com, cp.madhe@gmail.com, dkrishnakumarklu@gmail.com, emuthuboss23@gmail.com Keywords: kerf angle, material removal rate, surface roughness Abstract.
Uthayakumar, Investigation on the dry sliding friction and wear behavior of AA6351-SiC-B4C hybrid metal matrix composites, Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 228 (2014) 332-338
Patel, Parametric analysis of abrasive water jet machining of aluminium 6351 T6, International Journal for Technological Research in Engineering 1 (2014) 1458-1467
Mohandas, Electrical Discharge Machining of Al(6351)-SiC-B4C hybrid composite: A Grey Relational approach, Modelling and Simulation in Engineering 2014 (2014) 7
Uthayakumar, Investigation on the machining studies of AA6351-SiC-B4C hybrid metal matrix composites, International Journal of Machining and Machinability of Materials 15 (2014) 174-185

Fracture Characteristic of Mg-Al-Zn-Al2O3 Composites Haoran GENG 1, a , Shouren WANG2, b, Xinying TENG1, c , Linhai HUI 1, d and Fusong XU 1, e 1 School of Material Science and Engineering, Jinan University, Jinan 250022, China 2 School of Mechanical Engineering, Jinan University, Jinan 250022, China a strong-422@163.com, bsherman0158@tom.com, ctengxinying@163.com, d xufusong@163.com, ehuilinhai@163.com Keywords: Metal matrix composites; Bending strength; Fracture toughness; Fractography; Fracture mechanism.
The porous Si3N4 ceramic skeleton was heated up in an electric furnace under argon atmosphere.
Ceramic struts of skeleton were shown in Fig. 4.
Vol.230 (2002), p.287 [4] Taha Mohamed A.: Materials and Design Vol.22 (2001), p. 431 [5] Salzar Robert S.: Composites Part B: Engineering Vol.29 (1998), p.235 [6] M.
Gibson: International Journal of Mechanical Sciences Vol.2 (2004), p.925 [8] P.

Tani: Journal of Applied Mechanics, Vol. 116 (1994), p. 440
Varadan: International Journal of Solids and Structures, Vol. 39 (2002), p.1119
Huang: International Journal of Solids and Structure, Vol. 41 (2004), p. 7309
Gao: International Journal of Solids and Structures, Vol. 27 (1991), p. 1663
Wang: International Journal of Engineering Science, Vol. 39 (2001), p. 1271.

Advanceled Engineering Materials[J], 2005,7(3):159 [3] Monteverde F , Melandri C , Guicciardi S .
Materials Science and Engineering, 2000, 282( 12) : 109- 114
Ceramics International, 2010,(07):2181-2188
[7] Ralph F,Krause J r..Journal of the American Ceramic Society,1999.373 [8] Ajmal Khan..Journal of the American Ceramic Society ,1998,(10):2613
Journal of the American Ceramic Society . 2001, 84: 245-247

Drexel Nanotechnology Institute (DNI), Department of Materials Science & Engineering, Drexel University, 3141 Chestnut Street, Philadelphia, PA 19104, USA avolker.presser@drexel.edu, bklaus.nickel@uni-tuebingen.de, cchristoph.berthold@uni-tuebingen.de Keywords: wear, silicon carbide, ceramics, tribology, tribochemistry, analytical methods.
Introduction Wear of materials plays an important role in almost every engineering application: each physical contact causes friction and ultimately results in degradation.
Bratthall, Tribology International 26 (1993), pp. 83 - 92
Kuhlmann-Wilsdorf, Materials Science and Engineering 91 (1987), pp. 107 - 118
Kuhlmann-Wilsdorf, Materials Science and Engineering 91 (1987), pp. 119 - 133

.% TiO2 Coatings on Plain Carbon Steel Substrate Du Sanming1,a, * ,Niu Yongping2,b ,Zhang Yongzhen1,c 1 College of Material Science and Engineering, Henan University of Science and Technology, Luoyang 471003, China 2 Chemical Engineering and Pharmaceutics School, Luoyang 471003, China a, *dsming@mail.haust.edu.cn, bypniu@163.com, yzzhang@mail.haust.edu.cn Keywords: plasma spray, Zro2-Al2o3-Tio2 coating, friction, wear Abstract: In the present study, 20 wt. % ZrO2-Al2O3-17 wt.
Oxide ceramics such as Al2O3 ceramic coatings are widely used as wear resistant coatings [2, 3].
It has been found that composite with 20 wt. % alumina in a zirconia matrix exhibits improved toughness, enhanced thermal shock resistance and hardness when compared to zirconia ceramics [5].
Matthews: Ceramics International Vol. 26 (2000), p.787-795
Gokularathnam: Journal of the European Ceramic Society Vol. 12 (1993), p.455-460

Usually, SiC addition is used to improve the oxidation resistance of those ceramics [2~4].
Hudson: Journal of materials science Vol. 39 (2004), p. 5915 [2] E.V Clougherty, D.
Zimmermann: Journal of materials science Vol. 39 (2004), p. 5951 [4] J.
Wang: Ceramics International Vol. 35 (2009), p. 2831
Zhang: Journal of Aeronautical Materials Vol. 28 (2008), p. 69

Introduction Boron carbide (B4C), unique properties along high neutron absorption cross-section make it as a functional ceramics in various sectors like medical, defense, nuclear, electronic, etc,.[1] In the various advanced engineering sectors the requirement for functionalized surfaces having high hardness, ductility, lubricity, corrosion and wear resistant along with extended service lifetime and low cost enhanced the studies on ceramic particle reinforcement composites.[2] Boron carbide-aluminum composites find extensive applications where mechanical, thermal stability and light weight properties need to be in accord[3].
Pai, Studies on electroless nickel boride coating on boron carbide particles, Surface Engineering, 30 (2014) 702-708
Arslan, Effect of passivation and precipitation hardening on processing and mechanical properties of B4C–Al composites, Ceramics International, 37 (2011) 2861-2867
Lillo, Enhancing ductility of Al6061+10 wt.% B4C through equal-channel angular extrusion processing, Materials Science and Engineering: A, 410–411 (2005) 443-446
Turan, Quantitative X-ray diffraction analysis of reactive infiltrated boron carbide–aluminium composites, Journal of the European Ceramic Society, 23 (2003) 1243-1255.

Properties of YSZ Electrolyte Sintered at 1250°°°°C Min-Fang Hana, Ling-Zhi Cheng, Hui-Yan Yin and Xiu-Ling Tang Union Research Center of Fuel Cell on Coal Gasification, School of Chemical and Environmental Engineering, China University of Mining & Technology, Beijing, 100083, China a hanminfang@sina.com Keywords: SOFC; Yttria stabilized zirconia; Electrolyte; Low temperature sintering.
Blass: Journal of the European Ceramic Society.
Arakara: Journal of Power Sources.
Han: Key Engineering Materials Vol.336-338 (2007), p.2558
Peng: Proceedings of The International Conference on Clean Coal Technology and Fuel Cells, 113, November15-17, 2006, Yokosuka, Japan

Hyatt, The influence of glass composition on crystalline phase stability in glass-ceramic wasteforms, Journal of Nuclear Materials 456 (2015)461–466
Faleev, Generation of plasma flows by arc plasmatrons, Thermal Engineering 60 (2013) 878–881
Jordan, Stochastic computer simulation of cermet coatings formation, Advances in Materials Science and Engineering (2015) 396427
Zhou, Investigation of optical properties: Eu with Al codoping in aluminum silicate glasses and glass-ceramics, Journal of the American Ceramic Society 100 (2017) 2901–2913
Shekhovtsov, Calculation of the Melting Process of a Quartz Particle Under Low-Temperature Plasma, Journal of Engineering Physics and Thermophysics 89 (2016) 152–156