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Online since: September 2013
Authors: Alojz Ivanković, Neal Murphy, Declan Carolan, Patricia Alveen, Declan McNamara
The Role of Microstructure on the Fracture Behaviour and Statistics of Advanced Ceramics
Declan McNamara1,a, Patricia Alveen2,b, Declan Carolan3,c, Neal Murphy4,d, Alojz Ivanković5,e
1,2,3,4,5 School of Mechanical and Materials Engineering, University College Dublin, Ireland
a declan.mc-namara@ucdconnect.ie, b patricia.alveen@ucdconnect.ie,
c declan.carolan@ucd.ie, d neal.murphy@ucd.ie, ealojz.ivankovic@ucd.ie
Keywords: advanced ceramics, fracture, strength statistics
Abstract.
Weibull, Journal of applied mechanics 18.3 (1951), p. 293-297
Bikramjit, et al., Ceramics International 35.1 (2009), p. 237-246
Engineering Fracture Mechanics 74.18 (2007), p. 2919-2932
Fischer, Journal of the European Ceramic Society 24.14 (2004): p. 3643-3651.
Weibull, Journal of applied mechanics 18.3 (1951), p. 293-297
Bikramjit, et al., Ceramics International 35.1 (2009), p. 237-246
Engineering Fracture Mechanics 74.18 (2007), p. 2919-2932
Fischer, Journal of the European Ceramic Society 24.14 (2004): p. 3643-3651.
Online since: January 2013
Authors: Yu Qing Xu, Kun Chen, Hai Bin Qin, Zhao Yang Wang
Study on the Application of Kansei Engineering in Product Form Design
Xu Yuqing1,a, Chen Kun1,b, Qin Haibin1,c ,Wang Zhaoyang1,d
1 College of Mechanical and Electrical Engineering, Harbin Engineering University, Harbin, 150001, Hei Longjiang,China
ae-mail: xuyuqing2009@yahoo.com.cn, bck20110815@163.com,cqinhaibin606@126.com, d182135137@qq.com
Keywords: Kansei Engineering,Ergonomics,Kansei analysis,Product form
Abstract.
Design mode of product form is constructed combining Kansei Engineering (KE) with Ergonomics.
Introduction Kansei Engineering is a consumer-oriented technology of product development focusing on consumers' emotions[1].
The largest negative category is the tenth, ceramic.
References [1] M.Nagamachi: The TQM Journal,Vol.20(2008) No.4,p.290-298 [2] K.Choi,C.Jun: Applied Ergonomics,2007(1),p.53-63 [3] M.D.Shieh,J.H.Wang and C.C.Yang: International Journal of Digital Content Technology and its Applications,Vol.5(2011) No.4,p.305-318 [4] J.N.Su and H.Q.Li:Machine Design and Research,Vol.21(2005)No.3,p.12-14 (In Chinese) [5] H.Shiizuka and J.Watad: Proceedings of the I MECH E Part I Journal of System & Control Engineering,Vol.220(2006)No.8, p.ⅰ-ⅱ [6] M.Nagamachi:Kansei/affective engineering, (CRC Press Inc,U.S.A, 2010), P.189-230 [7] T.Katsunori,H.Tetsuo and L.Tetsuya:International Journal of Artificial Life and Robotics,Springs,Vol.15(2010)No4,p.417-420
Design mode of product form is constructed combining Kansei Engineering (KE) with Ergonomics.
Introduction Kansei Engineering is a consumer-oriented technology of product development focusing on consumers' emotions[1].
The largest negative category is the tenth, ceramic.
References [1] M.Nagamachi: The TQM Journal,Vol.20(2008) No.4,p.290-298 [2] K.Choi,C.Jun: Applied Ergonomics,2007(1),p.53-63 [3] M.D.Shieh,J.H.Wang and C.C.Yang: International Journal of Digital Content Technology and its Applications,Vol.5(2011) No.4,p.305-318 [4] J.N.Su and H.Q.Li:Machine Design and Research,Vol.21(2005)No.3,p.12-14 (In Chinese) [5] H.Shiizuka and J.Watad: Proceedings of the I MECH E Part I Journal of System & Control Engineering,Vol.220(2006)No.8, p.ⅰ-ⅱ [6] M.Nagamachi:Kansei/affective engineering, (CRC Press Inc,U.S.A, 2010), P.189-230 [7] T.Katsunori,H.Tetsuo and L.Tetsuya:International Journal of Artificial Life and Robotics,Springs,Vol.15(2010)No4,p.417-420
Online since: February 2014
Authors: Xi Geng Miao, Zhi Ya Zhao, Ruo Peng Liu, Fabrizia Ghezzo, Yu Rui Qu, Yu Tao Yue, Xiao Wei Fang
Yuan: Key Engineering Materials Vol. 336-338 II (2007), p.1005
Zhang: Key Engineering Matyerials Vol.512-515 (2012), p. 399
Qi: Ceramic Engineering Vol. 10 (2001), p.3
Tan: Tao Ci Xue Bao (Journal of Ceramics) Vol. 28[2] (2007), p. 144
Yu: Key Engineering Materials 249 (2003), p.159
Zhang: Key Engineering Matyerials Vol.512-515 (2012), p. 399
Qi: Ceramic Engineering Vol. 10 (2001), p.3
Tan: Tao Ci Xue Bao (Journal of Ceramics) Vol. 28[2] (2007), p. 144
Yu: Key Engineering Materials 249 (2003), p.159
Online since: June 2015
Authors: Carlos Mauricio Fontes Vieira, Sergio Neves Monteiro, Veronica Scarpini Candido, Alline Sardinha Cordeiro Morais, Thais Mardegan Louzada
Dom Bosco - Campos dos Goytacazes, 28030-130, RJ, Brazil
3Department of Materials Science, Military Institute of Engineering - IME, Praça General Tibúrcio, 80, Praia Vermelha, Urca, RJ, CEP 22290-270, Urca, Rio de Janeiro, RJ, Brazil.
Shater: Journal of the European Ceramic Soc.
Guarini: Ceramic International Vol. 28(8) (2002), p. 873
Lucchini: Ceramics International Vol. 37 (2011), p. 1293
Francescon: Journal of Environmental Management Vol. 124 (2013), p. 100
Shater: Journal of the European Ceramic Soc.
Guarini: Ceramic International Vol. 28(8) (2002), p. 873
Lucchini: Ceramics International Vol. 37 (2011), p. 1293
Francescon: Journal of Environmental Management Vol. 124 (2013), p. 100
Online since: April 2015
Authors: Guo Qing Wu, Jing Ling Zhou, Shu Qian Wu, Su Yun Yang, Chun Shu Zhai, Hai Li Xu
Xu1,f
1Nantong University, College of Mechanical Engineering, Nantong 226000, P.R.
China 2School of mechanical engineering, Technical University of Darmstadt, Darmstadt 64283, Germany azhou.jl@163.com, bzhaichunshu@163.com, c996329545@qq.com, dwushuqiandan@hotmail.com, ewu.gqing@163.com, fxu.hn@163.com *Corresponding author e-mail address: wu.gqing@163.com Keywords: Bovine serum albumin lubrication, Tribological properties, Wear mechanism, Silicon nitride ceramic Abstract.
Effect of bovine serum constituents on the surface of the tribological pair alumina/alumina nanocomposites for total hip replacement: Tribology International.
Effect of protein concentrations of bovine serum albumin and c-globulin on the frictional response of a cobalt-chromium femoral head: Journal of Materials Science–Materials in Medicine.
Tensile stress fatigue life model of silicon nitride ceramic balls: Tribology International, Vol. 42(2009), pp. 1838–1845.
China 2School of mechanical engineering, Technical University of Darmstadt, Darmstadt 64283, Germany azhou.jl@163.com, bzhaichunshu@163.com, c996329545@qq.com, dwushuqiandan@hotmail.com, ewu.gqing@163.com, fxu.hn@163.com *Corresponding author e-mail address: wu.gqing@163.com Keywords: Bovine serum albumin lubrication, Tribological properties, Wear mechanism, Silicon nitride ceramic Abstract.
Effect of bovine serum constituents on the surface of the tribological pair alumina/alumina nanocomposites for total hip replacement: Tribology International.
Effect of protein concentrations of bovine serum albumin and c-globulin on the frictional response of a cobalt-chromium femoral head: Journal of Materials Science–Materials in Medicine.
Tensile stress fatigue life model of silicon nitride ceramic balls: Tribology International, Vol. 42(2009), pp. 1838–1845.
Online since: December 2014
Authors: W. Acchar, F.V. Motta, R.P.A. Souza, R.G. Carvalho, C.A. Paskocimas, E. Harima, R. Maribondo
Riedel: International Journal of Refractory Metals & Hard Materials Vol. 15 (1-3) (1997), p. 13
Khonde et al.: International Journal Of Computer Applications (0975 – 8887) Vol. 41 (4) (2012)
Nowok: Materials Science And Engineering Vol. 232 (1-2) (1997), p. 157
:International Journal of Science and Technology Vol. 2 (4) (2012)
Tarley et al.: Microchemical Journal Vol. 77 (2) (2004), p. 163
Khonde et al.: International Journal Of Computer Applications (0975 – 8887) Vol. 41 (4) (2012)
Nowok: Materials Science And Engineering Vol. 232 (1-2) (1997), p. 157
:International Journal of Science and Technology Vol. 2 (4) (2012)
Tarley et al.: Microchemical Journal Vol. 77 (2) (2004), p. 163
Online since: June 2017
Authors: Vyacheslav V. Maksarov, A. Khalimonenko
Cutting ceramics combines the properties of both its ceramic and metallic components.
Phase development in VOK63 grade ceramics.
Feng, Effect of starting powders size on the Al2O3-TiC composites, International Journal of Refractory Metals and Hard Materials, 22 (6) (2004) 265-269
Zhu, Cutting performance and life prediction of an Al2O3/TiC micro-nano-composite ceramic tool when machining austenitic stainless steel, Ceramics International, Part PB 41 (5) (2015) 7059-7065
Li., Characteristics of Ceramic Tool Fracture, Key Engineering Materials. 96 (1994) 165-196.
Phase development in VOK63 grade ceramics.
Feng, Effect of starting powders size on the Al2O3-TiC composites, International Journal of Refractory Metals and Hard Materials, 22 (6) (2004) 265-269
Zhu, Cutting performance and life prediction of an Al2O3/TiC micro-nano-composite ceramic tool when machining austenitic stainless steel, Ceramics International, Part PB 41 (5) (2015) 7059-7065
Li., Characteristics of Ceramic Tool Fracture, Key Engineering Materials. 96 (1994) 165-196.
Online since: June 2014
Authors: O.S. Es-Said, D. Aliya, L.W. Walker, E. Montz, S. Pastor, A. Abad, F.A. Hashim, A. Abdul-Latif, A.O. Al-Roubaiy, Y.S. Oh, H. Garmestani, N. Ula
EsSaid2,j
1Aliya Analytical Inc., Grand Rapids, MI 49501, USA
2Mechanical Engineering Department, Loyola Marymount University, Los Angeles, CA 90045-8145, USA
3Northrop Grumman Corporation, One Hornet Way, El Segundo, CA 90425, USA
4Production Engineering and Metallurgy Department, University of Technology, Baghdad, Iraq
5Laboratoire d’Ingénierie des Systèmes Mécaniques et des Matériaux (LISMMA), Supméca, 3, rue Fernand Hainaut - 93407 St Ouen Cedex, France
6College of Engineering, University of Babylon, Babylon, Iraq
7Materials Science and Engineering Department, Georgia Institute of Technology, Georgia, USA
8Electrical Engineering Department, Loyola Marymount University, Los Angeles, CA 90045-814, USA
aDaaliya@itothen.com, b weswalker19@gmail.com, cemontz@lion.lmu.edu, dspastorm20@hotmail.com, eadeleenabad@hotmail.com, f hashembsb@yahoo.com, gaal1958@gmail.com, hgarm@gatech.edu, iNazmul.Ula@lmu.edu, joessaid@lmu.edu
Keywords: brazing, active filler metal alloys
Unpublished doctoral dissertation, Production Engineering and Metallurgy Department, University of Technology, Baghdad, Iraq (2003) [2] M.
Asthana: Joining and integration of ZrB2-based ultra-high temperature ceramic composites using advanced brazing technology, Journal of Materials Science 45 (2010) 4308-4320 [3] J.
Unpublished doctoral dissertation, College of Engineering, University of Babylon, Babylon, Iraq (2007) [7] J.
Ray: Correlation between the mechanical properties and microstructural behavior of Al2O3-(Ag-Cu-Ti) brazed joints, Material Science & Engineering A 383 (2004) 235-244.
Unpublished doctoral dissertation, Production Engineering and Metallurgy Department, University of Technology, Baghdad, Iraq (2003) [2] M.
Asthana: Joining and integration of ZrB2-based ultra-high temperature ceramic composites using advanced brazing technology, Journal of Materials Science 45 (2010) 4308-4320 [3] J.
Unpublished doctoral dissertation, College of Engineering, University of Babylon, Babylon, Iraq (2007) [7] J.
Ray: Correlation between the mechanical properties and microstructural behavior of Al2O3-(Ag-Cu-Ti) brazed joints, Material Science & Engineering A 383 (2004) 235-244.
Online since: June 2014
Authors: Yuan Xiong, Bo Lin Wu
Tunkasin: Ceramics international.
Messing: Journal of the American Ceramic Society.
Sil: Indian Journal of Engineering & Materials Sciences r.
Lewis: Journal of the European Ceramic Society.
Todd: Journal of the European Ceramic Society.
Messing: Journal of the American Ceramic Society.
Sil: Indian Journal of Engineering & Materials Sciences r.
Lewis: Journal of the European Ceramic Society.
Todd: Journal of the European Ceramic Society.
Online since: December 2010
Authors: Bo Zhao, Guo Fu Gao, Jin Xue Xue
Gao
2,c
1School of Mechanical Engineering, Tongji University, Shanghai, China
2School of Mechanical & Power Engineering, Henan Polytechnic University, Jiaozuo, China
3School of Mechatronics Engineering, Henan University of Science & Technology, Luoyang, China
a
xjx@mail.haust.edu.cn,
b
zhaob@hpu.edu.cn, cgaogf@hpu.edu.cn
Keywords: Nano-ceramics, Critical ductile grinding depth, Ultrasonic vibration grinding
Abstract.
The formula of critical ductile grinding depth of the common engineering ceramics was inapplicable to the nano-ZrO2 ceramics.
Their researches were mainly conducted on engineering ceramics[1].
Guo, Ceramics International, vol. 26 (2000), p. 391-396
Diamond & Abrasives Engineering.2009,No.4, p. 28-34(In Chinese).
The formula of critical ductile grinding depth of the common engineering ceramics was inapplicable to the nano-ZrO2 ceramics.
Their researches were mainly conducted on engineering ceramics[1].
Guo, Ceramics International, vol. 26 (2000), p. 391-396
Diamond & Abrasives Engineering.2009,No.4, p. 28-34(In Chinese).