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Online since: September 2014
Authors: Yan Qiu Han, Chun Jing Wu, Li Hua Ben, Jin Jin Yao, Shu Wei Feng
[J].Materials Science and Engineering.
Intermetallic phase formation in diffusion-bonded Cu/Al laminates [J].Journal of Materials Science
[J].Journal of Materials Processing Technology.2013(No.3)
[J].Journal of Materials Processing Technology.2009(No.5)
[J].Materials Science and Engineering.
Intermetallic phase formation in diffusion-bonded Cu/Al laminates [J].Journal of Materials Science
[J].Journal of Materials Processing Technology.2013(No.3)
[J].Journal of Materials Processing Technology.2009(No.5)
[J].Materials Science and Engineering.
Online since: May 2011
Authors: Dong Liang Li, Ying Fang Fan, Xiao Li Li, Ru Cheng Xiao, Zhi Guo Sun
:Journal of Structural Engineering Vol. 120 (1994), p. 3649-3665
[5]Jinsheng Gao, Changhuan Gou and Xu Xie: Tamkang Journal of Science and Engineering Vol. 9 (2006), p. 89-95, in Chinese
[6]Shuyan Ren and Ming Gu: Journal Of Tongji University(Natural Science) Vol. 33(2005), p. 595-599, in Chinese
:Journal of Structural Engineering Vol. 117 (1991), p. 936-950
:Journal of Structural Engineering Vol. 120 (1994), p. 3649-3665
[5]Jinsheng Gao, Changhuan Gou and Xu Xie: Tamkang Journal of Science and Engineering Vol. 9 (2006), p. 89-95, in Chinese
[6]Shuyan Ren and Ming Gu: Journal Of Tongji University(Natural Science) Vol. 33(2005), p. 595-599, in Chinese
:Journal of Structural Engineering Vol. 117 (1991), p. 936-950
:Journal of Structural Engineering Vol. 120 (1994), p. 3649-3665
Online since: October 2010
Authors: Jun Zhao, Shi Bo Ma, Jin Ma
Experimental material and method
The substrate materials is alloy structure steel 4140, coating material is even mixture which consists of WC and two kinds of binding phase powder (A , B) ground by ball milling separately, each mass rate is 3 to 1, the graininess of the powder is 5~15μm, A is Fe60 (C,0.5-1wt%.
Agren: Materials Science and Engineering A 452–453 (2007), p. 37-45 [2] Z.X Wang, A.X Yang, T Zang, D.Y He: Materials Engineering (2008), p. 56-59 [3] T Li, Q.F Li, J.Y.H.
Fuh: Materials Science and Engineering A 430 (2006), p. 113–119 [4] Bilge Yaman, Hasan Mandal: Materials Letters.
New carbide base materials for sparying.
Thermal spray 2003: Advancing the Science&Applying the Technology.
Agren: Materials Science and Engineering A 452–453 (2007), p. 37-45 [2] Z.X Wang, A.X Yang, T Zang, D.Y He: Materials Engineering (2008), p. 56-59 [3] T Li, Q.F Li, J.Y.H.
Fuh: Materials Science and Engineering A 430 (2006), p. 113–119 [4] Bilge Yaman, Hasan Mandal: Materials Letters.
New carbide base materials for sparying.
Thermal spray 2003: Advancing the Science&Applying the Technology.
Online since: June 2015
Authors: V.N. Gaitonde, S.R. Karnik, S.B. Angadi, Rashmi Melinamani, Mrityunjay Doddamani
Bose, Effect of particle size and surface treatment on constitutive properties of polyester cenosphere composites, Journal of Materials Science, 37(3) (2002) 603-613
Hirogaki, Drilled hole damage of small diameter in printed wiring board, Journal of Materials Processing Technology, 118 (2001) 436-441
Liu, Effect of electrical discharge machining on the characteristics of carbon fiber reinforced carbon composites, Journal of Materials Science, 36 (2001) 2037-2043
Hocheng, Evaluation of thrust force and surface roughness in drilling composite material using Taguchi analysis and neural network, Journal of Materials Processing Technology, 203 (2008) 342–348
Hocheng, Evaluation of thrust force and surface roughness in drilling composite material using Taguchi analysis and neural network, Journal of Materials Processing Technology, 203 (2008) 342–348.
Hirogaki, Drilled hole damage of small diameter in printed wiring board, Journal of Materials Processing Technology, 118 (2001) 436-441
Liu, Effect of electrical discharge machining on the characteristics of carbon fiber reinforced carbon composites, Journal of Materials Science, 36 (2001) 2037-2043
Hocheng, Evaluation of thrust force and surface roughness in drilling composite material using Taguchi analysis and neural network, Journal of Materials Processing Technology, 203 (2008) 342–348
Hocheng, Evaluation of thrust force and surface roughness in drilling composite material using Taguchi analysis and neural network, Journal of Materials Processing Technology, 203 (2008) 342–348.
Online since: January 2010
Authors: Xiang Zhong Ren, Pei Xin Zhang, Dong Yun Zhang, Li Gao, Hai Lin Peng, Qiu Hua Yuan
Therefore, the exploration of new types of high-performance
substrate materials has become the development trend of computer hard discs.
This paper aims at investigating the preparation and properties of the MgO-Al2O3-SiO2 glass-ceramic with a view to obtaining practical materials for the hard disk substrates. 2.
:Journal of the American Ceramic Society, 1999,82(1): 5-15 [7] Beall G H.
:Journal of Materials Science, 2000, 35 (19):4815-4821 [9] Sohn S B, Choi S Y.
:Journal of Non-crystalline Solids, 2001, 282 (2-3): 221-227
This paper aims at investigating the preparation and properties of the MgO-Al2O3-SiO2 glass-ceramic with a view to obtaining practical materials for the hard disk substrates. 2.
:Journal of the American Ceramic Society, 1999,82(1): 5-15 [7] Beall G H.
:Journal of Materials Science, 2000, 35 (19):4815-4821 [9] Sohn S B, Choi S Y.
:Journal of Non-crystalline Solids, 2001, 282 (2-3): 221-227
Online since: June 2009
Authors: Vladimir I. Babitsky, Vadim V. Silberschmidt, Vikrant Hiwarkar
For nonlinear materials their properties in terms of the plastic and viscous behavior are introduced.
Jiang: Journal of Sound and Vibration, Vol. 138 (1990), p. 233 [4] W.M.
Barr: International Journal of the Mechanical Sciences 26 (1984), p. 639 [6] M.H.
Pierre: Journal of Sound and Vibration, Vol. 138 (1990), p. 115 [7] N.
Casini: Journal of Sound and Vibration, Vol. 245(2001), p. 685
Jiang: Journal of Sound and Vibration, Vol. 138 (1990), p. 233 [4] W.M.
Barr: International Journal of the Mechanical Sciences 26 (1984), p. 639 [6] M.H.
Pierre: Journal of Sound and Vibration, Vol. 138 (1990), p. 115 [7] N.
Casini: Journal of Sound and Vibration, Vol. 245(2001), p. 685
Online since: August 2021
Authors: Valentina I. Loganina, Bassam Shareef Deneef Al Saedi
Materials and Method of Holding Research
We used polyvinyl acetatcement PVAC and perchlorovinyl XV-161 paints.
Engineering Materials and Technology. 737 (2017) 179-183
Leguillon, Effect of residual stresses on the propagation of interface cracks between dissimilar brittle materials: contribution of two and three-dimensional analyses, European Journal of Mechanics, A/Solids. 35 (2012) 97-110
Ivaschenko, Evaluation of the destruction of the coating depending on its thickness, Research Journal of Applied Sciences. 11 (2016) 891-893
Evans, Delamination of multilayer thermal barrier coatings, Mechanics of Materials. 31(7) (1999) 431-447
Engineering Materials and Technology. 737 (2017) 179-183
Leguillon, Effect of residual stresses on the propagation of interface cracks between dissimilar brittle materials: contribution of two and three-dimensional analyses, European Journal of Mechanics, A/Solids. 35 (2012) 97-110
Ivaschenko, Evaluation of the destruction of the coating depending on its thickness, Research Journal of Applied Sciences. 11 (2016) 891-893
Evans, Delamination of multilayer thermal barrier coatings, Mechanics of Materials. 31(7) (1999) 431-447
Online since: July 2003
Authors: Daniel J. Inman
First a quick review of smart materials is provided.
Smart Materials Smart materials is the name given to a class of materials that exhibit the ability to change mechanical force and motion into some other form of energy and visa versa.
More detailed descriptions of smart materials can be found in [1-3].
Culshaw: Smart structures and Materials (Artech House, 1996) [4] C.
Sohn: "Structural Health Monitoring Using Wireless Sensing Systems with Embedded Processing," Journal of Intelligent Materials Systems and Structures, to appear.
Smart Materials Smart materials is the name given to a class of materials that exhibit the ability to change mechanical force and motion into some other form of energy and visa versa.
More detailed descriptions of smart materials can be found in [1-3].
Culshaw: Smart structures and Materials (Artech House, 1996) [4] C.
Sohn: "Structural Health Monitoring Using Wireless Sensing Systems with Embedded Processing," Journal of Intelligent Materials Systems and Structures, to appear.
Online since: July 2019
Authors: Jorge Salguero Gómez, Moises Batista, Álvaro Domínguez Calvo, David Piñero, Irene Del Sol
This process keeps the characteristics of FDM not using the material in a filament form but in pellets and extruding the material using a spindle [6].
This operation is widely used for different materials [8] although its environmental impact, particularly for big parts is considerable high.
Shah, Rapid Development of Complex Shaped Customized Products, Journal of the Brazilian Society of Mechanical Sciences and Engineering, Vol. 37 (2015) No. 1, pp. 263-274
Buń, Influence of post-processing on the accuracy of fdm products, Advances in Science and Technology Research Journal Volume 11 (2017), Issue 2, pages 172–179
Veniali, 3D roughness profile model in fused deposition modelling, Rapid Prototyping Journal, Vol. 19 (2013) Iss 4 pp. 240 - 252
This operation is widely used for different materials [8] although its environmental impact, particularly for big parts is considerable high.
Shah, Rapid Development of Complex Shaped Customized Products, Journal of the Brazilian Society of Mechanical Sciences and Engineering, Vol. 37 (2015) No. 1, pp. 263-274
Buń, Influence of post-processing on the accuracy of fdm products, Advances in Science and Technology Research Journal Volume 11 (2017), Issue 2, pages 172–179
Veniali, 3D roughness profile model in fused deposition modelling, Rapid Prototyping Journal, Vol. 19 (2013) Iss 4 pp. 240 - 252
Online since: March 2006
Authors: Dyi Cheng Chen
Yu: Materials Science and Technology Vol. 5 (1989), p. 934
Melander: Materials Science and Technology Vol. 5 (1989), p. 940
Lee: Materials Science and Technology Vol. 7 (1991), p. 1042
Li: Journal of Materials Processing Technology Vol. 105 (2000), p. 32
Wu: Journal of Materials Processing Technology Vol. 125-126 (2002), p. 664
Melander: Materials Science and Technology Vol. 5 (1989), p. 940
Lee: Materials Science and Technology Vol. 7 (1991), p. 1042
Li: Journal of Materials Processing Technology Vol. 105 (2000), p. 32
Wu: Journal of Materials Processing Technology Vol. 125-126 (2002), p. 664