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Online since: June 2010
Authors: Bernhard Wielage, Ina Hoyer, Sebastian Weis
Weis: Welding Journal, Vol. 87 (2008), No. 3, p. 35-37
Science and Engineering A, Vol. 351 (2003), Issues 1-2, p. 190-199
Science and Engineering A, Vol. 285 (2000), Issues 1-2, p. 25-34
Weis: Proc. of 4th International Brazing and Soldering Conference, ASM International (2009), p. 49-54
Segal: Materials Science and Engineering A, Vol. 386 (2004), p. 269-276
Science and Engineering A, Vol. 351 (2003), Issues 1-2, p. 190-199
Science and Engineering A, Vol. 285 (2000), Issues 1-2, p. 25-34
Weis: Proc. of 4th International Brazing and Soldering Conference, ASM International (2009), p. 49-54
Segal: Materials Science and Engineering A, Vol. 386 (2004), p. 269-276
Online since: June 2011
Authors: E. Bayraktar, Frédéric Bonnet, J.P. Chevalier, F. Ayari, D. Katundi
Bonnet3
1Supmeca -Paris, School of Mechanical and Manufacturing Engineering, France
2Chair of Industrial Materials, CNAM, Arts et Métiers, 75141 Paris 03 –France
3ARCELOR – Research, Paris, France
*bayraktar@supmeca.fr; emin.bayraktar@cnam.fr
Key words: Steel matrix composites; Ceramic particles-TiB2; Crash test; Welding; Weldability
Abstract.
Introduction Metal Matrix Composites (MMCs) have recently received considerable attention in manufacturing engineering as potential structural materials due to their high specific strength and stiffness [1-2, 3-6, 7-12].
While most work on MMCs is directed towards producing novel and lightweight engineering materials, there is also considerable interest in developing iron and steel matrix composites.
-The weldability of this new steel family gives it great potential in manufacturing engineering.
Okamoto (Eds.), Handbook of Ternary Alloy Phase Diagrams, vol. 5, ASM International, 1997
Introduction Metal Matrix Composites (MMCs) have recently received considerable attention in manufacturing engineering as potential structural materials due to their high specific strength and stiffness [1-2, 3-6, 7-12].
While most work on MMCs is directed towards producing novel and lightweight engineering materials, there is also considerable interest in developing iron and steel matrix composites.
-The weldability of this new steel family gives it great potential in manufacturing engineering.
Okamoto (Eds.), Handbook of Ternary Alloy Phase Diagrams, vol. 5, ASM International, 1997
Online since: September 2013
Authors: Hong Yan Liu, Ping Zhao, Rohit Sharma, Chen Feng
In this paper, preliminary investigation of a new cement-sand based piezoelectric composite was conducted for potential structural engineering applications.
In this study, PZT powder mixed with cement and sand, which is more realistic in civil engineering applications.
Through a series of MTS compression tests, feasibility of using cement-sand based PZT composite materials in civil engineering is evaluated.
The studies of the applications for the piezoelectric materials in civil engineering have been done as well.
-N., Vibration control of civil structures using piezoceramic smart materials: A review, Engineering Structures, 28 (2006) p 1513-1524
In this study, PZT powder mixed with cement and sand, which is more realistic in civil engineering applications.
Through a series of MTS compression tests, feasibility of using cement-sand based PZT composite materials in civil engineering is evaluated.
The studies of the applications for the piezoelectric materials in civil engineering have been done as well.
-N., Vibration control of civil structures using piezoceramic smart materials: A review, Engineering Structures, 28 (2006) p 1513-1524
Online since: April 2015
Authors: Wei Ping Fang, Yao Yong Yi, Feng Mei Liu, Zhen Hua Deng, Zheng Lin Liu
Therefore advanced joining technology is necessary to join ceramics together for their engineering applications [1].
References [1] S.Kang, H.J.Kim, Design of high-temperature brazing alloys for ceramic-metal joints, Welding Journal. 75(1995) 289-295
Jiang, J.S.Zou, Joint strength of Si3N4 brazed with Ti-Zr-Ni-Cu amorphous brazing alloy, The Chinese Journal of Nonferrous Metals. 16 (2006) 1955-1959
[4] Rabinkin Anatol, Amorphous brazing foil at age of maturity, Proceedings of the 3rd International Brazing and Soldering Conferenee. (2006) 148-156
[7] GB/T 6569-2006: Fine ceramics (advanced ceramics, advanced technical ceramics) Test method for flexural strength of monolithic ceramics at room temperature.
References [1] S.Kang, H.J.Kim, Design of high-temperature brazing alloys for ceramic-metal joints, Welding Journal. 75(1995) 289-295
Jiang, J.S.Zou, Joint strength of Si3N4 brazed with Ti-Zr-Ni-Cu amorphous brazing alloy, The Chinese Journal of Nonferrous Metals. 16 (2006) 1955-1959
[4] Rabinkin Anatol, Amorphous brazing foil at age of maturity, Proceedings of the 3rd International Brazing and Soldering Conferenee. (2006) 148-156
[7] GB/T 6569-2006: Fine ceramics (advanced ceramics, advanced technical ceramics) Test method for flexural strength of monolithic ceramics at room temperature.
Online since: October 2014
Authors: Edward Gobina, Mohammed Nasir Kajama, Ngozi Claribelle Nwogu
Hydrogen Separation Using Silica-Based Composite Membranes
Mohammed Nasir Kajama1,a, Ngozi Claribelle Nwogu1,b and Edward Gobina1,c*
1Centre for Process Integration and Membrane Technology, (CPIMT), IDEAS Research Institute, School of Engineering, The Robert Gordon University, Aberdeen, AB10 7GJ.
Parmon, Catalytic reactors with hydrogen membrane separation, Chemical Engineering Journal, 154 (2009) 258-266
Mukhtar, H2 separation from binary gas mixture using coated alumina–titania membrane by sol–gel technique at high-temperature region, International Journal of Hydrogen Energy, 29 (2004) 817-828
Xu, Modified dip-coating method for preparation of pinhole-free ceramic membranes, Journal of Membrane Science, 367 (2011) 14-20
Xu, Preparation and characterization of alumina membranes on capillary supports: Effects of film-coating on crack-free membrane preparation, Chinese Journal of Chemical Engineering, 18 (2010) 377-383.
Parmon, Catalytic reactors with hydrogen membrane separation, Chemical Engineering Journal, 154 (2009) 258-266
Mukhtar, H2 separation from binary gas mixture using coated alumina–titania membrane by sol–gel technique at high-temperature region, International Journal of Hydrogen Energy, 29 (2004) 817-828
Xu, Modified dip-coating method for preparation of pinhole-free ceramic membranes, Journal of Membrane Science, 367 (2011) 14-20
Xu, Preparation and characterization of alumina membranes on capillary supports: Effects of film-coating on crack-free membrane preparation, Chinese Journal of Chemical Engineering, 18 (2010) 377-383.
Online since: August 2014
Authors: Marina A. Tsili, Eleftherios I. Amoiralis, Vassilios Spathopoulos, Antonios Hatziefremidis
Tsili2,d
1Department of Aircraft Technology, Technological Educational Institute of Chalkida, Greece
2Faculty of Electrical and Computer Engineering, National Technical University of Athens, Greece
aahatzi@teihal.gr,bvspathop@teihal.gr,ceamir@tee.gr, dmtsili@central.ntua.gr
Keywords: Unmanned Aerial Vehicles, Free Space Optical Communication, Shielding Materials.
Transparent crystalline ceramics.Transparent crystalline ceramics are normally used to defeat advanced threats.
Kahn: Journal of Lightwave Technology, vol. 31 (9) (2013): pp. 1383-1387
Of the 10th International Conference on Telecommunications (Zagreb, 2009)
Ren: Journal of Material Engineering, Vol. 1 (1998): pp. 19-21
Transparent crystalline ceramics.Transparent crystalline ceramics are normally used to defeat advanced threats.
Kahn: Journal of Lightwave Technology, vol. 31 (9) (2013): pp. 1383-1387
Of the 10th International Conference on Telecommunications (Zagreb, 2009)
Ren: Journal of Material Engineering, Vol. 1 (1998): pp. 19-21
Online since: December 2006
Authors: Gui Qiong Jiao, Guo Yang Guan, Tao Huang
Experimental Research on Failure Mechanism of a CVI-fabricated
Ceramic Matrix Composite under Compression
Guoyang GUANP1, aP, Guiqiong JIAOP2, bP, Tao HUANGP2, c P
P1PInstitute of Engineering Mechanics, Nanchang University, Nanchang 330029, China
P2PDepartment of Engineering Mechanics�Northwestern Polytechnical University, Xi'an 710072,
China
PaPgyguancn@yahoo.com.cn, PbPjiaogq@nwpu.edu.cn, PcPhuangt@nwpu.edu.cn
Keywords: Ceramic matrix composite; Plain-woven; Failure mechanism; Compression;
Fractography.
Compared to conventional ceramics, CMCs showed improved fracture toughness.
The tensile stress-strain relationships of plain-woven ceramic matrix composites have been investigated extensively [2-4,10].
Camus: International Journal of Solids and Structures 37 (2000) p.919
Laird: Journal of Material Science 31 (1996) p.2065
Compared to conventional ceramics, CMCs showed improved fracture toughness.
The tensile stress-strain relationships of plain-woven ceramic matrix composites have been investigated extensively [2-4,10].
Camus: International Journal of Solids and Structures 37 (2000) p.919
Laird: Journal of Material Science 31 (1996) p.2065
Online since: October 2010
Authors: Chong Hai Xu, Ming Dong Yi, Hui Fa Zhang, Xing Hai Wang
Xu: Rare Metal Materials and Engineering Vol. 34(suppl.1) (2005), p. 262 (In Chinese)
[2] J.
Xiong: International Journal of Refractory Metals & Hard Materials Vol. 27 (2009), p. 26 [4] X.B.
Choa, et al: Journal of the American Ceramic Society Vol. 81(6) (1998), p. 1453 [7] X.
Yin, et al: Journal of Ceramics Vol.21(2) (2000), p. 107 (In Chinese) [9] D.
Sánchez-Bajo, et al: Journal of European Ceramic Society Vol. 21 (2001), p. 765
Xiong: International Journal of Refractory Metals & Hard Materials Vol. 27 (2009), p. 26 [4] X.B.
Choa, et al: Journal of the American Ceramic Society Vol. 81(6) (1998), p. 1453 [7] X.
Yin, et al: Journal of Ceramics Vol.21(2) (2000), p. 107 (In Chinese) [9] D.
Sánchez-Bajo, et al: Journal of European Ceramic Society Vol. 21 (2001), p. 765
Online since: October 2013
Authors: N. Janardhan, M.V.S. Murali Krishna, P. Ushasri, P.V.K. Murthy
International Journal of Agriculture and Biology Engineering, 4(3) (2009) 1-10
International Journal of Applied Engineering Research, Dindigul, 1(1) (2010) 61-67
International Journal of Research in Mechanical Engineering and Technology, ISSN : 2249-5770, 2(2), 35-43
International Journal of Engineering and Advanced Technology, (CSIR), ISSN: 2249-8958, 2(3), 588-596
International Journal of Modern Engineering Research (IJMER), ISSN: 2249-6645, 1(1), 210-224
International Journal of Applied Engineering Research, Dindigul, 1(1) (2010) 61-67
International Journal of Research in Mechanical Engineering and Technology, ISSN : 2249-5770, 2(2), 35-43
International Journal of Engineering and Advanced Technology, (CSIR), ISSN: 2249-8958, 2(3), 588-596
International Journal of Modern Engineering Research (IJMER), ISSN: 2249-6645, 1(1), 210-224
Online since: November 2014
Authors: Zhi Lin Zhang, Wei Ming Guo, Shang Hua Wu, Yang You
Journal of the Chinese Ceramic Society. 35(2007)968–972
Journal of the European Ceramic Society. 18(1998)373–380
Journal of the American Ceramic Society. 74(1991)241–243
Ceramics International. 33(2007)1521–1524
Material Science And Engineering A.(2006)395-398.
Journal of the European Ceramic Society. 18(1998)373–380
Journal of the American Ceramic Society. 74(1991)241–243
Ceramics International. 33(2007)1521–1524
Material Science And Engineering A.(2006)395-398.