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Online since: July 2019
Authors: Ali Sadeghi, Farbod Tondnevis, Reza Fekrazad, Mohammad Ali Ketabi, Mohamad Mahdi Abolhasani
International Journal of Oral Science, 3(3), 107
International journal of biological macromolecules, 121, 625-632
Journal of tissue engineering, 3(1), 2041731412439555
Ceramics International, 42(2), 3442-3451
International journal of biological macromolecules, 49(4), 573-579
International journal of biological macromolecules, 121, 625-632
Journal of tissue engineering, 3(1), 2041731412439555
Ceramics International, 42(2), 3442-3451
International journal of biological macromolecules, 49(4), 573-579
Online since: May 2011
Authors: Xiao Chen, Feng Li, Ren Yuan Zhang
Schneider.Engineering materials handbook:Ceramic and glasses[J].Ohio:Mater.
Park, ASM International, (1995), p.787 [7]C.
Mathieu.Electrical discharge machinable ceramic composites[J].Mater Sci Eng A,Vol. 109 (1989), p.354 [8]V.
Kim.The oxidation of TiB2 ceramics containing Cr and Fe [J].Oxid Met,Vol. 56(2001), p.180 [10] Q.
The Chinese Journal of Nonferrous Metals, Vol 13(2003), p 253
Park, ASM International, (1995), p.787 [7]C.
Mathieu.Electrical discharge machinable ceramic composites[J].Mater Sci Eng A,Vol. 109 (1989), p.354 [8]V.
Kim.The oxidation of TiB2 ceramics containing Cr and Fe [J].Oxid Met,Vol. 56(2001), p.180 [10] Q.
The Chinese Journal of Nonferrous Metals, Vol 13(2003), p 253
Online since: August 2005
Authors: Feng Lin Zhang, Cheng Yong Wang, K.X. Fu, Y.M. Zhou, Hui Yuan
Zhou
Department of Mechanical and Electronic Engineering, Guangdong University of Technology,
Guangzhou, 510090, P.
History and recent developments in SHS, Ceramics International, 1995(21):371-379 [2] P.
Reaction mechanism of combustion synthesis of NiAl, Materials Science and Engineering A, 2002,(329-331):57-68 [3] C.L.
Synthesis of Ni-Ti intermetallics by self-propagating combustion, Journal of Alloys and Compounds, 2004(376):79-88 [4] European patent No.
American Ceramic Society Bulletin, 1993 (72):86-89 [7] M.
History and recent developments in SHS, Ceramics International, 1995(21):371-379 [2] P.
Reaction mechanism of combustion synthesis of NiAl, Materials Science and Engineering A, 2002,(329-331):57-68 [3] C.L.
Synthesis of Ni-Ti intermetallics by self-propagating combustion, Journal of Alloys and Compounds, 2004(376):79-88 [4] European patent No.
American Ceramic Society Bulletin, 1993 (72):86-89 [7] M.
Study on High Performance Fe3Si-Si3N4-SiC Composite Preparation and its Application in Blast Furnace
Online since: February 2011
Authors: Yong Li, Ya Wei Zhai, Xiao Yan Zhu, Jia Lin Sun, Jia Ping Wang, Wen Dong Xue, Jun Hong Chen
Matovic: Materials Science and Engineering A Vol. 527 (2010),
p.1314
[2] M.H.
Matovic: Materials Science and Engineering A Vol. 500 (2009), p. 30 [3] Yong Li, Jun Bo, Jianfang Zhang, Xiongzhang Liu: Evolution and properties of nonoxide composite refractories for large-size blast furnaces in China, Naihuo Cailiao Vol. 43 (2009), p. 140 (In Chinese) [4] Yong Li, Jun Bo, Jianfang Zhang: Effect of reactive sintering temperature on properties of Si3N4-SiC refractories, Naihuo Cailiao Vol. 43 (2009), p. 175 (In Chinese) [5] Chunling Hou, Huaping Liu, Tianxu Li et al: Properties and application of bricks mixed with Si3N4 and SiC, Energy Saving of Non-ferrous Metallurgy, issue 1 (2007), p. 26 (In Chinese) [6] Dongliang Jiang et al, in: China Materials Engineering Ceremony IV, inorganic material engineering (Vol. 2), edited by Chemical Industry Press, Beijing (2005), p. 360-363 (In Chinese) [7] Hongzhi Yue, Dayan Peng, Hongjie Wen: Current research situation of nitride bonded silicon carbide, Naihuo Cailiao Vol. 38 (2004), p. 435 (In Chinese) [8] Guangyu Wen: Composition
& Microstructure Design and Property Analysis of Si3N4 Bonded SiC [D].Xi'an: Northwest Industry University, 2004 (In Chinese) [9] Guotao Xu, Jiming Xiao, Jiankun Yang, et al: Nitride bonded silicon carbide refractories, Ceramic Science & Art, issue 2 (2003), p. 40 (In Chinese) [10] Shuying Shao: Study on RBSN bonded SIC refractory [D].Wuhan: Wuhan university of science and technology, 2002 (In Chinese) [11] Yong Zhang, Dayan Peng, Hongjie Wen: Sintering Process of Special Ceramics Fe-Si3N4 Bonded SiC, JOURNAL OF IRON AND STEEL RESEARCH Vol. 14 (2002), p. 25 (In Chinese) [12] Junhua Han: Thermodynamic analysis and experiment research in synthesis process of Si3N4, Fe-Si3N4 [D].
Vlasova et al: Journal of Materials Synthesis and Processing Vol. 9 (2001), p. 111 [14] L.N.
Proceedings of the Sixth Symposium on Special Ceramics, British Ceramic Research Association, 1974, p. 223 [19] J.A.
Matovic: Materials Science and Engineering A Vol. 500 (2009), p. 30 [3] Yong Li, Jun Bo, Jianfang Zhang, Xiongzhang Liu: Evolution and properties of nonoxide composite refractories for large-size blast furnaces in China, Naihuo Cailiao Vol. 43 (2009), p. 140 (In Chinese) [4] Yong Li, Jun Bo, Jianfang Zhang: Effect of reactive sintering temperature on properties of Si3N4-SiC refractories, Naihuo Cailiao Vol. 43 (2009), p. 175 (In Chinese) [5] Chunling Hou, Huaping Liu, Tianxu Li et al: Properties and application of bricks mixed with Si3N4 and SiC, Energy Saving of Non-ferrous Metallurgy, issue 1 (2007), p. 26 (In Chinese) [6] Dongliang Jiang et al, in: China Materials Engineering Ceremony IV, inorganic material engineering (Vol. 2), edited by Chemical Industry Press, Beijing (2005), p. 360-363 (In Chinese) [7] Hongzhi Yue, Dayan Peng, Hongjie Wen: Current research situation of nitride bonded silicon carbide, Naihuo Cailiao Vol. 38 (2004), p. 435 (In Chinese) [8] Guangyu Wen: Composition
& Microstructure Design and Property Analysis of Si3N4 Bonded SiC [D].Xi'an: Northwest Industry University, 2004 (In Chinese) [9] Guotao Xu, Jiming Xiao, Jiankun Yang, et al: Nitride bonded silicon carbide refractories, Ceramic Science & Art, issue 2 (2003), p. 40 (In Chinese) [10] Shuying Shao: Study on RBSN bonded SIC refractory [D].Wuhan: Wuhan university of science and technology, 2002 (In Chinese) [11] Yong Zhang, Dayan Peng, Hongjie Wen: Sintering Process of Special Ceramics Fe-Si3N4 Bonded SiC, JOURNAL OF IRON AND STEEL RESEARCH Vol. 14 (2002), p. 25 (In Chinese) [12] Junhua Han: Thermodynamic analysis and experiment research in synthesis process of Si3N4, Fe-Si3N4 [D].
Vlasova et al: Journal of Materials Synthesis and Processing Vol. 9 (2001), p. 111 [14] L.N.
Proceedings of the Sixth Symposium on Special Ceramics, British Ceramic Research Association, 1974, p. 223 [19] J.A.
Online since: October 2018
Authors: Evgeniy V. Pavlov, E.A. Kudryashov, I.M. Smirnov
Russian Engineering Research. 28(6) (2008) 611-329
Russian Engineering Research. 29(2) (2009) 210-213
Russian Engineering Research. 28(9) (2008) 924-925
International Journal of Precision Engineering and Manufacturing. 11(2) (2010) 341-358
International Journal of Refractory Metals and Hard Materials. 28(3) (2010) 330-337
Russian Engineering Research. 29(2) (2009) 210-213
Russian Engineering Research. 28(9) (2008) 924-925
International Journal of Precision Engineering and Manufacturing. 11(2) (2010) 341-358
International Journal of Refractory Metals and Hard Materials. 28(3) (2010) 330-337
Online since: March 2013
Authors: Dong Ying Ju, Ming Zhao
Analysis of bonging and interfacial characterization of 3Y-TZP
and SUS304 by diffusion bonding
Ming Zhao 1, a, Dongying Ju 1, 2, b
1Electronic Engineering, Saitama Institute of Technology 1690 Fusaiji Fukaya-shi,
Saitama, Japan, 3690293
2Materials Science and Engineering, University of Science and Technology Liaoning,
No.185 Qianshan Mid-Road, Anshan, Liaoning, China, 114051
a e1002suz@sit.ac.jp, b dyju@sit.ac.jp
Keywords: 3Y-TZP, SUS304, Diffusion Bonding, Microstructure, AFM.
The results show that the mechanism of the ceramic and stainless steel was expounded well.
The microstructure organization near the interface was evaluated by SEM and EPMA, AFM and XRD, and then the bonding mechanism of ceramic and stainless steel are explained.
Hidehiko: Diffusion Bonding of Tungsten to Titanium, Quarterly Journal of the Japan Welding Society, 19-1(2001), 85-91
Mitamura: Proc of the International Conference on Advanced Materials Development and Performance Evaluation and Application, (1999), 818-23
The results show that the mechanism of the ceramic and stainless steel was expounded well.
The microstructure organization near the interface was evaluated by SEM and EPMA, AFM and XRD, and then the bonding mechanism of ceramic and stainless steel are explained.
Hidehiko: Diffusion Bonding of Tungsten to Titanium, Quarterly Journal of the Japan Welding Society, 19-1(2001), 85-91
Mitamura: Proc of the International Conference on Advanced Materials Development and Performance Evaluation and Application, (1999), 818-23
Online since: March 2019
Authors: Jiří Lampa, Iva Petríková, Bohdana Marvalová
In: Proceedings of 10th international conference on composites/nano engineering, University of New Orleans, New Orleans, LA, USA. 2026 (2003)
Journal of the American Ceramic Society, 99(4) (2016), 1192-1199
Ceramics International, 41(9) (2015) 12115-12129
Engineering Fracture Mechanics, 69(9) (2002) 1025-1033
Journal of the American Ceramic Society, 99(4) (2016), 1192-1199
Ceramics International, 41(9) (2015) 12115-12129
Engineering Fracture Mechanics, 69(9) (2002) 1025-1033
Online since: October 2012
Authors: N. Ehsani, A.J. Ruys, C.C. Sorrell
Ehsani a, C.C Sorrell b, A.J Ruys c
a Faculty of Materials and Manufacturing Technology, Malek Ashtar University of Technology, Tehran 4817-75631, Iran;
b School of Materials Science and Engineering, University of NSW, Australia;
c Institute for Biomedical Engineering and Technology, AMME J07, University of Sydney, NSW Australia.
Advanced Engineering Materials, 6 (12) 918-24 (2003)
Hot Isostatic Pressing. pp.194-201 in Engineering Materials Handbook. 4 Ceramics and Glasses.
ASM International, Metals Park, Ohio, 1991
[40] D.W Richerson, Modern Ceramic Engineering.
Advanced Engineering Materials, 6 (12) 918-24 (2003)
Hot Isostatic Pressing. pp.194-201 in Engineering Materials Handbook. 4 Ceramics and Glasses.
ASM International, Metals Park, Ohio, 1991
[40] D.W Richerson, Modern Ceramic Engineering.
Online since: August 2011
Authors: Xiu Hong Li, Wen Hui Li
Acknowledgements
This project is supported by science and technology foundation of ShanXi(20090321041)
References
[1] J.L.Yuan, F.H.Zhang,Y.F.Dai, et al: Chinese Journal of Mechanical Engineering, Vols.46, No.15(2010), p.161-177.
(In Chinese) [3] Tae-Wan Kim,Jae-Seob Kwak: International Journal of Precision Engineering and Manufacturing, Vols.11, No.2(2010), p.189-194
(In Chinese) [5] Kyung-In Jang, JongwonSeok, Byung-KwonMin, et al: International Journal of Machine Tools & Manufacture, Vols.50(2010), p.869-881
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(In Chinese) [10] W.H.Li, H.L.Chen and S.Q.Yang: Key Engineering Materials, Vol. 455(2011), p.174-180.
Online since: October 2014
Authors: R.Y. Liu, Zeng Wen Liu
Liu2, b
1Key Laboratory of High Efficiency and Clean Mechanical Manufacture, Ministry of Education, Centre for Advanced Jet Engineering Technologies (CaJET), School of Mechanical Engineering, Shandong University, Jinan 250061, China
2School of Mathematics, Shandong University, Jinan 250100, China
azw-liu@sdu.edu.cn, b414617795@qq.com
Keywords: Slurry jet; Polishing technology; Morphology; Roughness; Mechanisms
Abstracts: Abrasive jet micromachining is considered as a promising precision processing technology for brittle materials such as silicate glass and silicon nitride that are increasingly used in various applications.
Wang, Abrasive Waterjet Machining of Engineering Materials, Switzerland: Tans Tech Publications LTD, 2003
Wong, Kerf characteristics in abrasive waterjet cutting of ceramic materials International[J], Journal of Machine Tools and Manufacture, vol. 36(11): 1201-1206, 1996
Journal of Materials Processing Technology, Vol. 94: 30-35, 1999
Journal of Materials Processing Technology. 2004, 149(1-3): 37-42.
Wang, Abrasive Waterjet Machining of Engineering Materials, Switzerland: Tans Tech Publications LTD, 2003
Wong, Kerf characteristics in abrasive waterjet cutting of ceramic materials International[J], Journal of Machine Tools and Manufacture, vol. 36(11): 1201-1206, 1996
Journal of Materials Processing Technology, Vol. 94: 30-35, 1999
Journal of Materials Processing Technology. 2004, 149(1-3): 37-42.