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Online since: July 2012
Authors: Hua Ying Liang, Hua Wang, Bing Xiang Liu
Rough set of optimized probabilistic neural network in identification of blue and white ceramic from Jingdezhen
Hua Wang, Huaying Liang, Bingxiang Liu
School of Information Engineering ,Jingdezhen Ceramic Institute
Keywords: rough sets , probabilistic neural network, ceramic identification
Abstract.
Guo Jingkang pattern recognition - Artificial Neural Network used in the classification study of ancient ceramics, given the mathematical criterion of the classification of ancient ceramics, using computers to design a new the chemical composition of ceramic glaze, and the classification of ancient ceramics quantitative prediction.
References [1] Jiaju Li .ceramic technology.
Ceramic, 1997, 3: 130 [7] Pawlak Z.
International Journal of Information and Computer Science, 1982, (11) :341-356.
Guo Jingkang pattern recognition - Artificial Neural Network used in the classification study of ancient ceramics, given the mathematical criterion of the classification of ancient ceramics, using computers to design a new the chemical composition of ceramic glaze, and the classification of ancient ceramics quantitative prediction.
References [1] Jiaju Li .ceramic technology.
Ceramic, 1997, 3: 130 [7] Pawlak Z.
International Journal of Information and Computer Science, 1982, (11) :341-356.
Study on Morphologies and Structures of Ceramic Coating Prepared by Micro-Arc Oxidation on TC4 Alloy
Online since: February 2011
Authors: Feng Guo, Ya Ya, Peng Fei Li, Chao Shi Qian, Liang Liu
Study on Morphologies and Structures of Ceramic Coating Prepared by Micro-Arc Oxidation on TC4 Alloy
Chaoshi Qiana,Pengfei Lib,Liang Liu,Feng Guo,Ya Ya
College of Materials Science and Engineering, Inner Mongolia University of Technology, Huhhot, China
aqianchaoshi@163.com,bli_pf@imut.edu.cn
Key words: Ceramic Coating; Micro-Arc Oxidation; TC4; Electrolyte
Abstract: In this work, the effects of concentration and mixture ratio of Ca(CH3COO)2·H2O and Na5P3O10 in electrolyte on surface morphology, surface content and atomic ratio of calcium and phosphorus elements, and phase structure of ceramic coating prepared by micro-arc oxidation (MAO) on TC4 titanium alloy were studied, a suitable formula of electrolyte for bio-modification of titanium by MAO was obtained, Ca(CH3COO)2·H2O 20 g/L and Na5P3O10 9.3 g/L.
The coatings can be used in many application fields, such as automotive, aerospace, textile engineering and medicine, etc.
The Ca and P elements in the electrolyte reacted upon the MAO ceramic coating and the most was distributed near the surface of the ceramic coating.
An amorphous phase maybe exists in the ceramic coating.
References: [1] Li Dehua:International Journal of Biomedical Engineering, Vol. 20 (1)(1997), p.24“In Chinese” [2] Mandl S, Sader R, Thorwarth G: Biomolecular Engineering, Vol.19 (2)(2002), p.129 [3] Yu Sirong: Materials Science & Engineering, Vol.18 (2) (2000), p.131 [4] Schreckenbach J P, Marx G, Scgkittig F: J Mater Sci Mater Med, Vol.10( 1999),p.453 [5] Yang Yungchin, Chang E: Surface and Coatings Technology, Vol.190(1)(2005),p.122 [6] Gyorgy E, Grigorescu S, Socol G.: Applied Surface Science, Vol.253(19)(2007),p.7981 [7] Liu Liang, Guo Feng, Li Pengfei: Surface Technology, Vol.l38(3)(2009),p.37“In Chinese” [8] Xue Wenbin, Deng Zhiwei, Chen Ruyi: Metal Heat Treatment, Vol.2 (2000),p.5“In Chinese” [9] Ward B C, Webster T J:Science and Engineering C, Vol.27(3)(2007),p.575 [10] Han Yong, Xu Kewei:Journal of Inorganic Materials, Vol.16(5)( 2001),p.951“In Chinese”
The coatings can be used in many application fields, such as automotive, aerospace, textile engineering and medicine, etc.
The Ca and P elements in the electrolyte reacted upon the MAO ceramic coating and the most was distributed near the surface of the ceramic coating.
An amorphous phase maybe exists in the ceramic coating.
References: [1] Li Dehua:International Journal of Biomedical Engineering, Vol. 20 (1)(1997), p.24“In Chinese” [2] Mandl S, Sader R, Thorwarth G: Biomolecular Engineering, Vol.19 (2)(2002), p.129 [3] Yu Sirong: Materials Science & Engineering, Vol.18 (2) (2000), p.131 [4] Schreckenbach J P, Marx G, Scgkittig F: J Mater Sci Mater Med, Vol.10( 1999),p.453 [5] Yang Yungchin, Chang E: Surface and Coatings Technology, Vol.190(1)(2005),p.122 [6] Gyorgy E, Grigorescu S, Socol G.: Applied Surface Science, Vol.253(19)(2007),p.7981 [7] Liu Liang, Guo Feng, Li Pengfei: Surface Technology, Vol.l38(3)(2009),p.37“In Chinese” [8] Xue Wenbin, Deng Zhiwei, Chen Ruyi: Metal Heat Treatment, Vol.2 (2000),p.5“In Chinese” [9] Ward B C, Webster T J:Science and Engineering C, Vol.27(3)(2007),p.575 [10] Han Yong, Xu Kewei:Journal of Inorganic Materials, Vol.16(5)( 2001),p.951“In Chinese”
Online since: December 2006
Authors: Zhi Wei Wang, Ju Long Yuan, Bing Hai Lv, Ying Xue Yao
Study on Fixed Abrasive Lapping Technology for Ceramic Balls
Binghai Lv
1,a, Julong Yuan2,b
, Yingxue Yao
1,c and Zhiwei Wang2,d
1
Department of Mechanical Engineering, Harbin Institute of Technology,
Harbin 15001, China
2
Ultraprecision Machining Research Center, Zhejiang University of Technology,
Hangzhou 310014, China
a
lu-bt@sohu.com, bjlyuan@zjut.edu.cn, cyxyao@hit.edu.cn, dwangzhiwei007@sohu.com
Keywords: Ceramic balls, Fixed abrasive, Photosensitive resin, Material removal mechanism
Abstract.
Komanduri: Key Engineering Materials, Vol.202-203 (2001), pp.1-14
Kirtane and et al: International Journal of Machine Tools & Manufacture, Vol.46 (2006), pp.151-169
Lu and et al: Journal of Materials Processing Technology, Vol.129 (2002), pp.171-175
Yao: Key Engineering Material, Vol.304-305 (2006), pp.71-75.
Komanduri: Key Engineering Materials, Vol.202-203 (2001), pp.1-14
Kirtane and et al: International Journal of Machine Tools & Manufacture, Vol.46 (2006), pp.151-169
Lu and et al: Journal of Materials Processing Technology, Vol.129 (2002), pp.171-175
Yao: Key Engineering Material, Vol.304-305 (2006), pp.71-75.
Online since: June 2011
Authors: Yu Sui Yao, Ye Han, Shu Yu Yao, Wei Wei Zhang, Ming Gu
A Novel Wear Resistant Glass-Ceramic Coating Material
HAN Ye1,a, YAO Shuyu1,b, ZHANG Weiwei1,c, GU Ming2,dand YAO Yusui1,e
1College of Material Science and Engineering, SDUST, Qingdao 266510, China
2Materials Department, Jinan Iron & Steel Co., Ltd, Jinan 250101, China
ahanye@sdust.edu.cn, bshuyu_yao1971@163.com, cvivizhg@yeah.net, djskguming@163.com,ewwwyusui1266@126.com
Kyewords: coatings; glass-ceramic; wear; abrasion.
Preparation ceramic and glass-ceramic coatings on steel for protection purposes has been bring a common thought of scientists and engineers for many years[4-6].
Eyre: Tribology International, Vol. 9(1976), p. 203-212
Donald: Journal of Materials Science, Vol. 28(1993), p. 2841-2886
Pilloni, et al.: Ceramics International, Vol. 36, p.1389-1395
Preparation ceramic and glass-ceramic coatings on steel for protection purposes has been bring a common thought of scientists and engineers for many years[4-6].
Eyre: Tribology International, Vol. 9(1976), p. 203-212
Donald: Journal of Materials Science, Vol. 28(1993), p. 2841-2886
Pilloni, et al.: Ceramics International, Vol. 36, p.1389-1395
Online since: October 2023
Authors: Raghvendra S. Dubey, Sekhar Didde, Sampad Kumar Panda, G. Satheesh Babu
Satheesh Babu5,d
1Department of Electronics & Communication Engineering, Swarnandhra College of Engineering and Technology, Seetharamapuram, Narsapur, (A.P.), India
2University Institute of Engineering & Technology, Guru Nanak University, Ibrahimpatnam, R.R.
District, Hyderabad, (T.S.), India 3Department of Electronics & Communication Engineering, Guru Nanak Institutions Technical Campus, Ibrahimpatnam, R.
District, Hyderabad, (T.S.), India 4Department of ECE, KoneruLakshmaiah Education Foundation, Greenfields, Vaddeswaram, Guntur, (A.P.), India 5Interdisciplinary Research Center, RV College of Engineering, Mysore Road, Bangalore, (KA), India adidde.sekhar007@gmail.com, brag_pcw@yahoo.co.in, csampadpanda@gmail.com, dsatheeshbabug@rvce.edu.in *rag_pcw@yahoo.co.in Keywords: Ceramic Nanoparticles; Microstrip Patch Antenna; ReturnLoss; Voltage Standing Wave Ratio.
Composites Part B: Engineering, 141, 214–220, (2018). doi:10.1016/j.compositesb.2017.12.055 [11] Pang, Li-Xia; Liu, Wei-Guo; Zhou, Di; Yue, Zhen-Xing, Novel glass-free low-temperature fired microwave dielectric ceramics: Bi(Ga1/3Mo2/3)O4.
Journal of Materials Science: Materials in Electronics, 29(22), 19308–19315, (2018). doi:10.1007/s10854-018-0057-2 [18] Fuyu Li; Xinyan Liu; Yuanxun Li; Tingting Tang; Yulong Liao; Yongcheng Lu; Rui Peng; Qin Zhang; Xiaohui Wu; Qiye Wen; Co-substituted CuO–ZrO2–Nb2O5 composite ceramics with low-temperature sintering and low-loss for high-performance patch antenna, Ceramics International Volume 48, Issue 13, 1 July 2022, Pages 18522-18529, https://doi.org/10.1016/j.ceramint.2022.03.122 [19] Huang, Li; Li, Jianjun; Wang, Zhijiang; Li, Yibin; He, Xiaodong; Yuan, Ye, Microwave absorption enhancement of porous C@CoFe2O4 nanocomposites derived from eggshell membrane.
District, Hyderabad, (T.S.), India 3Department of Electronics & Communication Engineering, Guru Nanak Institutions Technical Campus, Ibrahimpatnam, R.
District, Hyderabad, (T.S.), India 4Department of ECE, KoneruLakshmaiah Education Foundation, Greenfields, Vaddeswaram, Guntur, (A.P.), India 5Interdisciplinary Research Center, RV College of Engineering, Mysore Road, Bangalore, (KA), India adidde.sekhar007@gmail.com, brag_pcw@yahoo.co.in, csampadpanda@gmail.com, dsatheeshbabug@rvce.edu.in *rag_pcw@yahoo.co.in Keywords: Ceramic Nanoparticles; Microstrip Patch Antenna; ReturnLoss; Voltage Standing Wave Ratio.
Composites Part B: Engineering, 141, 214–220, (2018). doi:10.1016/j.compositesb.2017.12.055 [11] Pang, Li-Xia; Liu, Wei-Guo; Zhou, Di; Yue, Zhen-Xing, Novel glass-free low-temperature fired microwave dielectric ceramics: Bi(Ga1/3Mo2/3)O4.
Journal of Materials Science: Materials in Electronics, 29(22), 19308–19315, (2018). doi:10.1007/s10854-018-0057-2 [18] Fuyu Li; Xinyan Liu; Yuanxun Li; Tingting Tang; Yulong Liao; Yongcheng Lu; Rui Peng; Qin Zhang; Xiaohui Wu; Qiye Wen; Co-substituted CuO–ZrO2–Nb2O5 composite ceramics with low-temperature sintering and low-loss for high-performance patch antenna, Ceramics International Volume 48, Issue 13, 1 July 2022, Pages 18522-18529, https://doi.org/10.1016/j.ceramint.2022.03.122 [19] Huang, Li; Li, Jianjun; Wang, Zhijiang; Li, Yibin; He, Xiaodong; Yuan, Ye, Microwave absorption enhancement of porous C@CoFe2O4 nanocomposites derived from eggshell membrane.
Online since: February 2011
Authors: Chang He Li, Li Li Wang, Yu Cheng Ding, Ya Li Hou
Key Engineering Materials, Vols.259-260 (2004), p.302-306
[2] B.Lin, H.Wu, H.T.Zhu And S.Y.Yu.
Key Engineering Materials, Vols.259-260 (2004), p.211-215 [3] Li Chang-he, Cai Guang-qi, Xiu Shi-chao,et al.
International Journal of Machine Tools & Manufacture, Vol.43 (2003), p. 811-823 [5] C.
Xiu: Key Engineering Materials Vols.375-376(2008), p. 449-453
Key Engineering Materials Vols. 375-376 (2008), p. 449-453
Key Engineering Materials, Vols.259-260 (2004), p.211-215 [3] Li Chang-he, Cai Guang-qi, Xiu Shi-chao,et al.
International Journal of Machine Tools & Manufacture, Vol.43 (2003), p. 811-823 [5] C.
Xiu: Key Engineering Materials Vols.375-376(2008), p. 449-453
Key Engineering Materials Vols. 375-376 (2008), p. 449-453
Online since: September 2018
Authors: Yan Yan Yan, Jun Li Liu, Yi Fan Lv
Optical precision engineering. 17 (2009) 2512-2519
China Mechanical Engineering. 27 (2016) 507-512
Liu, J.the international journal of advanced manufacturing technology. 43 (2009) 462-467
Journal of Engineering for Industry. 113 (1991) 184-189
Journal of Chinese Ceramic Society. 34 (2006) 102-106
China Mechanical Engineering. 27 (2016) 507-512
Liu, J.the international journal of advanced manufacturing technology. 43 (2009) 462-467
Journal of Engineering for Industry. 113 (1991) 184-189
Journal of Chinese Ceramic Society. 34 (2006) 102-106
Online since: June 2014
Authors: Mohd Yusof Noorsuhana, Nurul Hidayah Abdul Aziz
Electrophoretic Deposition of Titanium Dioxide (TiO2) Nanoparticles on Ceramic Membrane
Noorsuhana Mohd Yusof1, a and Nurul Hidayah Abdul Aziz 2,b
1,2 Faculty of Chemical Engineering, Universiti Teknologi Mara
noorsuhana@salam.uitm.edu.my, anurulhidayahaziz89@gmail.comb
Keywords: Ceramic membrane, concentration, electrophoretic deposition, TiO2 nanoparticles, suspension, zeta potential.
Journal of the European Ceramic Society 28(7): 1353-1367
Colloids and Surfaces: Physicochemical and Engineering Aspects 342: 70-75 [5] Grinis, et al. (2008).
Colloids and Surfaces A:Physicochemical and Engineering Aspects 315: 61-65 [7] Kreethawate, L., S.
Ceramics International. p.1-6
Journal of the European Ceramic Society 28(7): 1353-1367
Colloids and Surfaces: Physicochemical and Engineering Aspects 342: 70-75 [5] Grinis, et al. (2008).
Colloids and Surfaces A:Physicochemical and Engineering Aspects 315: 61-65 [7] Kreethawate, L., S.
Ceramics International. p.1-6
Online since: November 2014
Authors: Xiao Yang Xu, Xiao Hong Xu, Jian Feng Wu, Yang Zhou, De Zhi He
[2] Yin Z, Huang C, Zou B, et al, Study of the mechanical properties, strengthening and toughening mechanisms Al2O3/TiC micro-nano-composite ceramic tool material Materials Science and Engineering: A. 577 (2013) 9-15
Journal of the European Ceramic Society. 33 (2013) 737-747
Journal of The Chinese Ceramic Society. 39 (2011) 1317-1322
Ceramics International.
Ceramics International. 34 (2008) 429-434.
Journal of the European Ceramic Society. 33 (2013) 737-747
Journal of The Chinese Ceramic Society. 39 (2011) 1317-1322
Ceramics International.
Ceramics International. 34 (2008) 429-434.
Online since: November 2012
Authors: Alexander B. Freidin, Roman A. Filippov, Elena N. Vilchevskaya, Irina Hussainova
Vilchevskaya1
1Institute for Problems in Mechanical Engineering of Russian Academy of Sciences
Bolshoy, 61, V.O., St.
Petersburg, 199178, Russia 2Tallinn University of Technology, Department of Materials Engineering, Ehitajate 5, 19086, Tallinn, Estonia aalexander.freidin@gmail.com Keywords: ceramics, transformation toughening, zirconia, size effect Abstract.
Basu, Toughening of yttria-stabilised tetragonal zirconia ceramics, International Materials Reviews. 50, No.4, (2005) 239–259
Book series: Advances in Key Engineering Materials. 214, (2011), 344 – 348
Gutkin, Misfits stress relaxation in composite nanoparticles, International Journal of Engineering Science.
Petersburg, 199178, Russia 2Tallinn University of Technology, Department of Materials Engineering, Ehitajate 5, 19086, Tallinn, Estonia aalexander.freidin@gmail.com Keywords: ceramics, transformation toughening, zirconia, size effect Abstract.
Basu, Toughening of yttria-stabilised tetragonal zirconia ceramics, International Materials Reviews. 50, No.4, (2005) 239–259
Book series: Advances in Key Engineering Materials. 214, (2011), 344 – 348
Gutkin, Misfits stress relaxation in composite nanoparticles, International Journal of Engineering Science.