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Manisekar2b 1National Institute for Interdisciplinary Science and Technology, CSIR, Trivandrum – 695019 2National Engineering College, Kovilpatti-628503 Email: manu.kaimanikal@gmail.com,resmiviswanadhan@gmail.com,tpdrajan@niist.res.in Key words: squeeze infiltration, metal-ceramic composites, preform, aluminium, silicon carbide Abstract.
Nagel, Composite materials based on porous ceramic preform infiltrated by aluminium alloy, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 95-98
Adamiak, Manufacturing of aluminium matrix composite materials reinforced by Al2O3 particles, Journal of Achievements in Materials and Manufacturing Engineering 27 (2008) 99-102
Sharma, Preparation of macroporous alumina ceramics using wheat particles as gelling and pore forming agent, Ceramics International 33 (2007) 77–81
[11] Emilie Chevalier, Dominique Chulia, Christelle Pouget and Maryle`ne Viana, Fabrication of Porous Substrates: A Review of Processes Using Pore Forming Agents in the Biomaterial Field, Journal of Pharmaceutical Sciences, 97 (2008) 1135-1154

Crystallization behavior during preparation of glass-ceramics from BF slag of Baotou iron and steel company Yici Wang1,2,a, Jianliang Zhang1,b ,Qi Jiang2,c, Guoping Luo1,2,d, Wenwu Yu2,e 1 College of Metallurgical and Ecological Engineering, University of Science and Technology Beijing, Beijing 100083, China 2 College of Material and Metallurgy, Inner Mongolia University of Science and Technology, Baotou 014010, Inner Mongolia, China awangyici01060@163.com, bjl.zhang@metall.ustb.edu.cn, c41276661@qq.com, dluoguoping3@126.com, e114470659@qq.com Keywords: BF slag; glass-ceramics; crystallization behavior; special components Abstract.
Fig.1 DTA curves of the parent glass The microstructure of glass-ceramics.
The crystal phase composition of glass-ceramics.
Fig.3 XRD patterns of the glass-ceramics with different contents of blast furnace slag The flexural strength of glass-ceramics Table 4 The flexural strength of glass-ceramics Content of BF slag /% 20 30 40 50 Flexural strength /MPa 119.5 110.8 154.0 130.7 The flexural strength is a very important index to measure performance of glass-ceramics.
Khater: Ceramics International Vol. 28 (2002), p. 59-67 [8] H.Y.Liu, Y.Y.Sun, X.Q.Ren: Brick and Tile Vol. (2010), p. 58-61 [9] W.Zhang, S.M.Yang, X.L.Zhou: Journal of Xinjiang University (Natural Science Edition) Vol. 27 (2010), p. 209-213 [10] Z.J.Wang, W.Ni, Y.Jia: Journal of Non-Crystalline Solids Vol. 356 (2010), p. 1554-1558 [11] H.N.XIAO, Y.Liu, H.X.Shi: Science and Art of Ceramic Vol. (2003), p. 42-46

Journal of the European Ceramic Society (2006) 26:1481-1488
International Journal of Biomaterials (2013) 2013:12
Ceramics International (2016) 42:11126-11135
Journal of the American Ceramic Society (2005) 88:3374-3379
Ceramics International (2000) 26:221-230.

Introduction The lightweight composite armours composed with metallic alloy, engineering ceramic and fiber have multi-functional attributes, including high stiffness/strength, energy absorption, shock mitigation, and ballistic-resistance capability and so on.
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Int.J.of Impact Engineering.Vol.25. (2001)
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International Journal of Machine Tools & Manufacture.Vol.44,( 2004), P:307~316 [9] Zhixin Xia.

The original CAD geometry of ball screw mechanism was converted from Pro/Engineer Software.
Luca, “A general elastic-plastic approach to impact analysis for stress state limit evaluation in ball screw Bearings return system”, International Journal of Impact Engineering, in press
Chiu, “Impact failure analysis of re-circulating mechanism in ball screw”, Engineering Failure Analysis, 11(2004): pp.561-573
Zhang, “Dynamics analysis and simulation of re-circulating mechanism in ball screw”, Proceedings of the 12th International Manufacturing Conference, Xi’an, China, pp.223-227, 2006
Jiang, “Research on the impact between balls and re-circulating mechanism in ball screw”, China Mechanical Engineering, 7(2008):pp. 850-853,881

BOURRAT, Boron-bearing species in ceramic matrix composites for long-term aerospace application, Journal of Solid State Chemistry, 2004, n°177, p. 449-456
WENZEL, Resistance of solid surfaces to wetting by water, Industrial and Engineering Chemistry, 1936, vol. 28, n°8, p. 988
OPILA, Oxidation kinetics of chemically vapor deposited silicon carbide in wet oxygen, Journal of American Ceramic Society, 1994, vol. 77, n°3, p. 730-736
SAYIR, High Temperature Oxidation of Boron Nitride: I, Monolithic Boron Nitride, Journal of the American Ceramic Society, 1999, vol. 2, n°82, p. 393-398
TESSLER, High-temperature Oxidation of Boron Nitride: II, Boron Nitride Layers in Composites, Journal American Ceramic Society, 1999, vol. 82, n°6, p. 1473-1482

The Effects of Sintering Atmosphere on the Fabrication of Transparent Polycrystalline Yag Ceramics Fatemeh Mohammadia, Omid Mirzaeea, Mohammad Tajallya* aFaculty of materials and metallurgical engineering, Semnan University, Iran *Corresponding author: m_tajally@ semnan.ac.ir (M.
Guo, The history, development, and future prospects for laser ceramics: a review, International Journal of Refractory Metals and Hard Materials, 39 (2013) 44–52
Aung, Synthesis and Performance of Advanced Ceramic Lasers, Journal of the American Ceramic Society, 89 (2006), 1936-1944
Huang, Sintering of transparent yttria ceramics in oxygen atmosphere, Journal of the American Ceramic Society,93 (2010) 2964-2967
Journal of the American Ceramic Society, 77 (1994), 2866–2872

Electric Conductive Si3N4/TiN Composite Ceramic Manufactured by Liquid-Qhase Sintering Yong Jianga, Laner Wub and Zhenkun Huangc School of Materials Science and Engineering, Beifang University of Nationalities, Wenchangbei Road, Yinchuan 750021, China ajynxyc@126.com (Corresponding author), bLanerwu@126.com, czkh_08@163.com Keywords: Si3N4 based ceramics, TiN, conductive phase, electric resistivity Abstract.
Mathieu, Electrical discharge machinable ceramic composites, Materials Science and Engineering A. 109 (1989) 351-356
[7] Chien-Cheng Liu, Jow-Lay Huang, Effect of the electrical discharge machining on strength and reliability of TiN/Si3N4 composites, Ceramics International. 29 (2003) 679–687
[8] Shuichi Kawano, Junichi Takahashi, Shiro Shimada, Fabrication of TiN/Si3N4 Ceramics by Spark Plasma Sintering of Si3N4 Particles Coated with Nanosized TiN Prepared by Controlled Hydrolysis of Ti(O-i-C3H7)4, Journal of the American Ceramic Society. 86 (2003) 701–705
[10] Norhayati Ahmad, Hidekazu Sueyoshi, Properties of Si3N4–TiN composites fabricated by spark plasma sintering by using a mixture of Si3N4 and Ti powders, Ceramics International. 36 (2010) 491–496

Analysis of Ceramic Elements with Ring-Crack Defects in Lubricated Rolling Contact KARASZEWSKI Waldemar Gdansk University of Technology, Mechanical Engineering Department, ul.
Introduction Catastrophic fracture failure of engineering structures is caused by cracks that extend beyond a safe size.
Key Engineering Materials, Vol. 490 (2012) 54-63
Horton, Failure modes of ceramic elements with ring crack defects, Tribology International 26 (1993) 157-164
Key Engineering Materials, Vol. 490 (2012) 216-225.

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