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Online since: December 2019
Authors: Zdeněk Majer, Michal Kotoul, Zdeněk Chlup, Oldřich Ševeček, Daniel Drdlík, Jiří Hanák
Kotoul: Engineering Mechanics 2017 (2017), p. 862-865
[8] O.
Leguillon: European Journal of Mechanics - A/Solids Vol. 21 (2002), p. 61-72 [10] P.
Mantič: Composites Part B: Engineering Vol. 95 (2016), p. 475-487 [13] A.
Leguillon: International J. of Solids and Structures Vol. 143 (2018), p. 175-182 [14] A.
Leguillon: International J. of Adhesion and Adhesives Vol. 85 (2018), p. 69-76 [15] O.
Leguillon: European Journal of Mechanics - A/Solids Vol. 21 (2002), p. 61-72 [10] P.
Mantič: Composites Part B: Engineering Vol. 95 (2016), p. 475-487 [13] A.
Leguillon: International J. of Solids and Structures Vol. 143 (2018), p. 175-182 [14] A.
Leguillon: International J. of Adhesion and Adhesives Vol. 85 (2018), p. 69-76 [15] O.
Online since: December 2013
Authors: Sudin Izman, Mohamed Konneh, Bashir Yahaya, Norizah Redzuan
Konneh2,c, Norizah Redzuan1,d
1Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, Johor, Malaysia
2Kulliyyah Engineering, International Islamic University Malaysia, Kuala Lumpur, Malaysia
abyahaya2@live.utm.my, b izman@mail.fkm.utm.my, cmkonneh@iium.edu.my dnorizah@mail.fkm.utm.my
Keywords: Susceptor; Microwave hybrid heating; Dielectric properties; Electric field; Critical temperature.
Haque, Microwave energy for mineral treatment process - a brief review, International Journal of Mineral Processing, 57(1999), 1-24
West, Processing materials with microwave energy, Materials Science and Engineering, A287(2000), 153-158
Haque, Microwave energy for mineral treatment process- a brief review, International Journal of Mineral Processing, 57(1999), 1-24
Schachter, Use of partially oxidized SiC particle bed for microwave sintering of low-loss ceramics, Materials Science and Engineering, A266(1999), 211-220
Haque, Microwave energy for mineral treatment process - a brief review, International Journal of Mineral Processing, 57(1999), 1-24
West, Processing materials with microwave energy, Materials Science and Engineering, A287(2000), 153-158
Haque, Microwave energy for mineral treatment process- a brief review, International Journal of Mineral Processing, 57(1999), 1-24
Schachter, Use of partially oxidized SiC particle bed for microwave sintering of low-loss ceramics, Materials Science and Engineering, A266(1999), 211-220
Online since: October 2014
Authors: Jia Ting Chen, Shi Liang Ao, Jian Ping Jia, Zhi Long Pan
Journal of ELECTRONIC MATERIALS, Vol. 35 (2006)
Journal of ELECTRONIC MATERIALS, Vol. 41, No. 8 (2012)
Journal of Applied Physics. 111.07B543 (2012)
Dielectric properties of three ceramic/epoxy composites.
Ceramics International 38 (2012) 3553–3562
Journal of ELECTRONIC MATERIALS, Vol. 41, No. 8 (2012)
Journal of Applied Physics. 111.07B543 (2012)
Dielectric properties of three ceramic/epoxy composites.
Ceramics International 38 (2012) 3553–3562
Online since: August 2010
Authors: Taghi Tawakoli, Bahman Azarhoushang
Silicium carbide (SiC)
as an advanced ceramic is a non oxide advanced ceramic with a very high ratio of covalent bonding
to ionic bonding (9:1).
Ritter: Grinding mechanisms and strength degradation for ceramics, Journal of Engineering for Industry, 111, (1989), pp. 167-174
Schippers: High-speed grinding of ceramics, in: S.
Huang: High speed versus conventional grinding in high removal rate machining of alumina and alumina-titania, International Journal of Machine Tools and Manufacture, 45, (2005), pp. 897-907
Zhang: Performance of a new segmented grinding wheel system, International Journal of Machine Tools & Manufacture, 49, (2009), pp. 291-96
Ritter: Grinding mechanisms and strength degradation for ceramics, Journal of Engineering for Industry, 111, (1989), pp. 167-174
Schippers: High-speed grinding of ceramics, in: S.
Huang: High speed versus conventional grinding in high removal rate machining of alumina and alumina-titania, International Journal of Machine Tools and Manufacture, 45, (2005), pp. 897-907
Zhang: Performance of a new segmented grinding wheel system, International Journal of Machine Tools & Manufacture, 49, (2009), pp. 291-96
Online since: October 2011
Authors: Priya S. Shinde
Introduction
The ceramic work-materials are hard, brittle, and difficult-to-machine.
As the work material becomes harder, so should the abrasive used in the grinding wheel to achieve the desired form tolerances and surface integrity on engineering ceramics.
Chen, “A Neural Network Approach for Grinding Processes: Modeling and Optimization”, International Journal of Machine Tools and Manufacture 34 (7), 1994, pp. 919-937
Jain, “Optimum Selection of Machining Conditions in Abrasive Flow Using Neural Networks”, Journal of Materials Processing Technology 108, 2000, pp. 62-67
Deshmukh, “A Genetic Algorithmic Approach for Optimization of Surface Roughness Prediction Model”, International Journal of Machine Tools and Manufacture 42, 2002, pp. 675-680
As the work material becomes harder, so should the abrasive used in the grinding wheel to achieve the desired form tolerances and surface integrity on engineering ceramics.
Chen, “A Neural Network Approach for Grinding Processes: Modeling and Optimization”, International Journal of Machine Tools and Manufacture 34 (7), 1994, pp. 919-937
Jain, “Optimum Selection of Machining Conditions in Abrasive Flow Using Neural Networks”, Journal of Materials Processing Technology 108, 2000, pp. 62-67
Deshmukh, “A Genetic Algorithmic Approach for Optimization of Surface Roughness Prediction Model”, International Journal of Machine Tools and Manufacture 42, 2002, pp. 675-680
Online since: March 2004
Authors: B. Zhang, Zhao Hui Deng, Q.Y. Jin
Zhang1, 2
1
College of Mechanical & Automotive Engineering, Hunan University, Changsha, 410082, China
2
Department of Mechanical Engineering, 191 Auditorium Road, U-139 Storrs
Connecticut, 06269-3139, U.S.A.
Grinding mechanisms are discussed for nanostructured ceramic coatings.
Journal Title and Volume Number (to be inserted by the publisher) 275 a.
Journal Title and Volume Number (to be inserted by the publisher) 277 References [1] X.B.
Deng: International Journal of Machine Tools & Manufacture Vol. 42 (2002), p. 1665 [2] S.
Grinding mechanisms are discussed for nanostructured ceramic coatings.
Journal Title and Volume Number (to be inserted by the publisher) 275 a.
Journal Title and Volume Number (to be inserted by the publisher) 277 References [1] X.B.
Deng: International Journal of Machine Tools & Manufacture Vol. 42 (2002), p. 1665 [2] S.
Online since: October 2010
Authors: Khaled A. Abou-El-Hossein, Han Bing Chua, Huey Tze Ting
Hurwitz, in: Engineering Statistics Handbook, C.
Gamble: Journal of Microelectromech.
Stemme: Journal of Micromech.
Imanian: Journal of Mater.
Hua: Proceeding in International Conference on Software (1998), p. 20-26
Gamble: Journal of Microelectromech.
Stemme: Journal of Micromech.
Imanian: Journal of Mater.
Hua: Proceeding in International Conference on Software (1998), p. 20-26
Online since: October 2016
Authors: Akhil S. Karun, Williams S. Ebhota, Freddie L. Inambao
This group (FGM) of engineering materials evolved from composite materials.
Prabhat, "Functionally Graded Materials: A Critical Review," International Journal of Research (IJR) vol. 1, pp. 289-301, 2014
Khushbu, "A Review of Stress Analysis of Functionally Graded Material Plate with Cut-out," International Journal of Engineering Research & Technology (IJERT), vol. 3 2014
Hopkinson, "Laser Melting Functionally Graded Composition of Waspaloy and Zirconia Powders," Journal of Materials Science and Engineering, vol. 42, pp. 7647-7656, 2007
Larry, "Bioceramics," Journal of the American Ceramic Society, vol. 81, pp. 1705-1728, 1998.
Prabhat, "Functionally Graded Materials: A Critical Review," International Journal of Research (IJR) vol. 1, pp. 289-301, 2014
Khushbu, "A Review of Stress Analysis of Functionally Graded Material Plate with Cut-out," International Journal of Engineering Research & Technology (IJERT), vol. 3 2014
Hopkinson, "Laser Melting Functionally Graded Composition of Waspaloy and Zirconia Powders," Journal of Materials Science and Engineering, vol. 42, pp. 7647-7656, 2007
Larry, "Bioceramics," Journal of the American Ceramic Society, vol. 81, pp. 1705-1728, 1998.
Online since: December 2014
Authors: Ming Chao Che, Jie Chen
Research Development of Preparation Technology of BaTiO3 Nano-power
Ming-chao Che1.a Jie Chen2,b,*
1,2 School. of Material Science and Engineering, Xi’an University of Science and Technology, China
a chejunzai@163.com, b chenjie363@163.com
* Corresponding author.
Ananta: Ceramics International, Vol. 35 (2009) p.173 [10] R.Wongmaneerung, R.
Wongnawa: Journal of Nanoparticle Research, Vol. 12 (2010) No.8, p,2895 [14] C.Li and B.Xu: Chemical Industry and Engineering, Vol. 26 (2010) No.3, p,273 (In Chinese) [15] L.X.Ma, G.Q.Wang, L.D.Liu and B.Y.Li: Journal of the European Ceramic Societies, Vol. 505 (2010) No.1, p,374 [16] R.J.Li and L.X.Gao: Vol. 65 (2011) No.212, p,374 (In Chinese) [17] Information on http://baike.so.com/doc/6008214.html [18] R.J.Li,W.X.Wei and J.L.Hai: Journal of Alloys and Compounds, Vol. 574 (2013) p,212 [19] W.W.Lee,W.H.Chung,W.S.Huang and W.C.Lin: Journal of the Taiwan Institute of Chemical Engineers, Vol. 44 (2013) No.4, p,660 [20] B.L.Newalkar and K.Sridhar: Materials Research Bulletin, Vol. 36 (2001) No.13-14, p,2347 [21] S.F.Liu, A.I.Robin and K.Sridhar: Materials Letters, Vol. 38 (1999) No.5, p,344 [22] J.Chen, F.Yan and K.P.Luo: Journal of Artificial Crystal, 2013 (In Chinese) [23] K.Sridhar and H.Katsuki: Ceramics International, Vol. 36 (2010) No.3, p,1165 [24] W.W.Wang, L.X.Cao, W.Liu
, G.Su and W.X.Zhang: Ceramics International, Vol. 39 (2013) No.6, p,7127 [25] Y.Zhang, L.Q.Wang and D.F.Xue: Power Technology, Vol. 217 (2012), p,629 [26] Y.M.Li, D.Huang, R.H.Liao and J.S.Wang: Journal of Ceramics, Vol. 29 (2008) No.2, p,164 (In Chinese) [27] C.Ma, C.X.Chai, P.P.Wang and Y.R.Zhou.
Rubira: Ceramics International, Vol. 40 (2014) No.2, p,3603 [34] Information on http://blog.sina.com.cn/s/blog_6765ce720100sonp.html [35] K.D.Kreuer, S.J.Paddison and E.Spohr: Chemical Review, Vol. 104 (2004) p,4637 [36] Y.T.Wu, X.F.Wang, C.L.Yu, E.Y.
Ananta: Ceramics International, Vol. 35 (2009) p.173 [10] R.Wongmaneerung, R.
Wongnawa: Journal of Nanoparticle Research, Vol. 12 (2010) No.8, p,2895 [14] C.Li and B.Xu: Chemical Industry and Engineering, Vol. 26 (2010) No.3, p,273 (In Chinese) [15] L.X.Ma, G.Q.Wang, L.D.Liu and B.Y.Li: Journal of the European Ceramic Societies, Vol. 505 (2010) No.1, p,374 [16] R.J.Li and L.X.Gao: Vol. 65 (2011) No.212, p,374 (In Chinese) [17] Information on http://baike.so.com/doc/6008214.html [18] R.J.Li,W.X.Wei and J.L.Hai: Journal of Alloys and Compounds, Vol. 574 (2013) p,212 [19] W.W.Lee,W.H.Chung,W.S.Huang and W.C.Lin: Journal of the Taiwan Institute of Chemical Engineers, Vol. 44 (2013) No.4, p,660 [20] B.L.Newalkar and K.Sridhar: Materials Research Bulletin, Vol. 36 (2001) No.13-14, p,2347 [21] S.F.Liu, A.I.Robin and K.Sridhar: Materials Letters, Vol. 38 (1999) No.5, p,344 [22] J.Chen, F.Yan and K.P.Luo: Journal of Artificial Crystal, 2013 (In Chinese) [23] K.Sridhar and H.Katsuki: Ceramics International, Vol. 36 (2010) No.3, p,1165 [24] W.W.Wang, L.X.Cao, W.Liu
, G.Su and W.X.Zhang: Ceramics International, Vol. 39 (2013) No.6, p,7127 [25] Y.Zhang, L.Q.Wang and D.F.Xue: Power Technology, Vol. 217 (2012), p,629 [26] Y.M.Li, D.Huang, R.H.Liao and J.S.Wang: Journal of Ceramics, Vol. 29 (2008) No.2, p,164 (In Chinese) [27] C.Ma, C.X.Chai, P.P.Wang and Y.R.Zhou.
Rubira: Ceramics International, Vol. 40 (2014) No.2, p,3603 [34] Information on http://blog.sina.com.cn/s/blog_6765ce720100sonp.html [35] K.D.Kreuer, S.J.Paddison and E.Spohr: Chemical Review, Vol. 104 (2004) p,4637 [36] Y.T.Wu, X.F.Wang, C.L.Yu, E.Y.
Online since: November 2014
Authors: Xiao Feng Wang, Wan Fu Huang, Xin Dong Li, Si Ming Yan
Application of Ceramic Membrane Technology in Tungsten Fine Particle Concentration Process
Wan-Fu HUANG1,2, Xiao-Feng WANG1,a,*, Xin-Dong LI1 and Si-Ming YAN1
1Faculty of Resource and Environmental Engineering,
Jiang xi University of Science and Technology, Ganzhou 341000, China
2Jiangxi Key Laboratory of Mining and Metallurgy Environmental Pollution Control,
Ganzhou 341000, China
a570564373@qq.com
*Corresponding author
Keywords: Tungsten fine particles, Tubular ceramic microfiltration membrane, Concentration, Recovery rate.
Ceramic membrane has been applied in many fields and with a broad prospect [3].
Wu Zhaoliang etc. [7] used ceramic membrane to recycle niacin in broth.
Application of Ceramic Membrane Filtrationto Remove the Solid in Nisin Fermentation Broth [J].International Journal of Food Engineering,2008,4(4):1~8 [8] Mohsen Abbasi, Abdolhamid Salahi, Mojtaba Mirfendereskiet al.
Treatment of dyeing wastewater and reuse engineering application by double membrane [J].
Ceramic membrane has been applied in many fields and with a broad prospect [3].
Wu Zhaoliang etc. [7] used ceramic membrane to recycle niacin in broth.
Application of Ceramic Membrane Filtrationto Remove the Solid in Nisin Fermentation Broth [J].International Journal of Food Engineering,2008,4(4):1~8 [8] Mohsen Abbasi, Abdolhamid Salahi, Mojtaba Mirfendereskiet al.
Treatment of dyeing wastewater and reuse engineering application by double membrane [J].