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Online since: October 2012
Authors: Li Ping Shi, Yu Jia, Xin Tao Wang, Fei Xiang He
What’s more, Ceramic particle reinforced metal matrix composite can be made to be functionally graded material(FGM) armor, as the wave impedance, elastic modulus and coefficient of thermal expansion of the FGM armor can change smoothly, the stress concentration existing in the interface of common composite armor materials will be greatly reduced.
Berezovski [4] etc studied the propagation of stress waves in functionally graded materials.
Acknowledgements This work was supported by the National Natural Science Foundation of China (Grant No.51102059).
[4] Berezovski A, Engelbrecht J, Maugin G A, Numerical simulation of two-dimensional wave propagation in functionally graded materials, J.
European Journal of Mechanics A/Solids, 222 (2003)257-265
Berezovski [4] etc studied the propagation of stress waves in functionally graded materials.
Acknowledgements This work was supported by the National Natural Science Foundation of China (Grant No.51102059).
[4] Berezovski A, Engelbrecht J, Maugin G A, Numerical simulation of two-dimensional wave propagation in functionally graded materials, J.
European Journal of Mechanics A/Solids, 222 (2003)257-265
Online since: November 2013
Authors: Chang Chun Ge, Chuan Sun, Hu Wang, Yun Kai Li
The coating materials were sprayed on Cu matrixes with dimensions of 10´10´2mm3, 10´20´2 mm3, j15´2 mm3.
Vetter; 1995 Elsevier Science B.V., 455-458 [3] V.
Samm, et al.; Behavior of Carbon and Boron Ccarbon Materials at High Temperature in TEXTOR, Journal of Nuclear Materials; 1992, 196-198:1106-1111 [4] E.Vietzke, V.Philipps, K.Flaskamp; High Temperature Erosion of Boron/Carbon Materials; Journal of Nuclear Materials; 1992, 196-198:1112-1117 [5] H.Bolt, M.Araki; Heat Flux Experiment on First Wall Mock Coated by Plasma Sprayed B4C [6] G.Vieider et al., Plasma facing components in ITER, IAEA-CN531 F-3-12, IAEA Conf.
Series No. 30, IAEA Vienna, 1991 [8] W.Eckstein, Plasma-materials data for fusion, J.
Zhu, et al., Plasma-surface interaction studies in HL-1 Tokamak, Journal of nuclear materials, 162-164(1988): 448 [10] K.A.Niemer et al., Modeling of runaway electron damage for the design of Tokamak Plasma Facing Components, SANDIA Report, SAND-88-2045(1989) [11] Y.Yamauchi et al., J.
Vetter; 1995 Elsevier Science B.V., 455-458 [3] V.
Samm, et al.; Behavior of Carbon and Boron Ccarbon Materials at High Temperature in TEXTOR, Journal of Nuclear Materials; 1992, 196-198:1106-1111 [4] E.Vietzke, V.Philipps, K.Flaskamp; High Temperature Erosion of Boron/Carbon Materials; Journal of Nuclear Materials; 1992, 196-198:1112-1117 [5] H.Bolt, M.Araki; Heat Flux Experiment on First Wall Mock Coated by Plasma Sprayed B4C [6] G.Vieider et al., Plasma facing components in ITER, IAEA-CN531 F-3-12, IAEA Conf.
Series No. 30, IAEA Vienna, 1991 [8] W.Eckstein, Plasma-materials data for fusion, J.
Zhu, et al., Plasma-surface interaction studies in HL-1 Tokamak, Journal of nuclear materials, 162-164(1988): 448 [10] K.A.Niemer et al., Modeling of runaway electron damage for the design of Tokamak Plasma Facing Components, SANDIA Report, SAND-88-2045(1989) [11] Y.Yamauchi et al., J.
Online since: August 2015
Authors: Aelita Nikulina, Pavel Komarov, Alexandra Chevakinskaya, Vadim Skeeba
Liu, Mechanism of forming interfacial intermetallic compounds at interface for solid state diffusion bonding of dissimilar materials, Materials Science and Engineering A. 437 (2006) 430-435
Baksan, Microstructure and strength of friction-welded Fe–28Al and 316 L stainless steel, Materials Science and Engineering A. 528 (2011) 8530– 8536
Mordike, Formation of a crack-free joint between Ti alloy and Al alloy by using a high-power CO2 laser, Journal of Materials Science, 32 (1997) 6191-6200
Venkata Ramana, Role of nickel as an interlayer in dissimilar metal friction welding of maraging steel to low alloy steel, Journal of Materials Processing Technology. 212 (2012) 66-77
Jouvard, Multiphysical modeling of dissimilar welding via interlayer, Journal of Materials Processing Technology. 211 (2011) 1796-1803
Baksan, Microstructure and strength of friction-welded Fe–28Al and 316 L stainless steel, Materials Science and Engineering A. 528 (2011) 8530– 8536
Mordike, Formation of a crack-free joint between Ti alloy and Al alloy by using a high-power CO2 laser, Journal of Materials Science, 32 (1997) 6191-6200
Venkata Ramana, Role of nickel as an interlayer in dissimilar metal friction welding of maraging steel to low alloy steel, Journal of Materials Processing Technology. 212 (2012) 66-77
Jouvard, Multiphysical modeling of dissimilar welding via interlayer, Journal of Materials Processing Technology. 211 (2011) 1796-1803
Online since: March 2011
Authors: Zhan Ling Zhang, Ke Ke Zhang, Yun Yue, Zhi Wei Xu, Ning Ma
Sherby: Metallurgical and Materials Transactions A Vol. 25 (1994), p. 1481
[2] D.R.
Lin, et al: Materials Science and Engineering Vol. 38 (1979), p. 35 [5] E.M.
Liu, J.W., et al: Materials Science and Engineering A Vol. 483-484 (2008), p. 64 [7] D.
García-Mateo, et al: Materials and Design Vol. 30 (2009), p. 2077 [10] Z.L.
Zebarjad: Journal of Materials Processing Technology Vol. 189 (2007), p. 107
Lin, et al: Materials Science and Engineering Vol. 38 (1979), p. 35 [5] E.M.
Liu, J.W., et al: Materials Science and Engineering A Vol. 483-484 (2008), p. 64 [7] D.
García-Mateo, et al: Materials and Design Vol. 30 (2009), p. 2077 [10] Z.L.
Zebarjad: Journal of Materials Processing Technology Vol. 189 (2007), p. 107
Online since: July 2014
Authors: Jin Ping Qu, Zan Huang, Wei Zou, Hai Chen Zhang, Rong Yuan Chen
Experimental
Materials and Equipment.
For the TSE processing, the materials are easy to degrade.
Materials & Design, 2011, 32(8): 4658-4663
Materials & Design, 2013, 48: 14-24
Journal of Applied Polymer Science, 2013, 128(6): 3576-3585
For the TSE processing, the materials are easy to degrade.
Materials & Design, 2011, 32(8): 4658-4663
Materials & Design, 2013, 48: 14-24
Journal of Applied Polymer Science, 2013, 128(6): 3576-3585
Online since: August 2018
Authors: Tadashi Nishihara, Tetta Tajima, Hamed Mofidi Tabatabaei
Introduction
Composite materials have wide applications in cutting-edge ranges of advanced materials as medical devices, sport parts, automotive and especially for materials that are needed for aerospace, underwater, and transportation applications.
Callister, Jr., Materials Science and Engineering.
Olson, Application of Soft Magnetic Materials and Specialty Alloys, Journal of Applied Physics. 37 (1966) 1197-1201
Nishihara, Production of a Superplastic Vibration-Damping Steel Sheet Composite using Friction Stir Forming, Materials Science Forum. 838-839 (2016) 574-580
[7] Hamed Mofidi Tabatabaei, Tadashi Nishihara, Friction Stir Forming for Mechanical Interlocking of Insulated Copper Wire and Zn-22Al Superplastic Alloy, Welding in the World (The International Journal of Materials Joining). 61, Issue 1 (2017) 44-55
Callister, Jr., Materials Science and Engineering.
Olson, Application of Soft Magnetic Materials and Specialty Alloys, Journal of Applied Physics. 37 (1966) 1197-1201
Nishihara, Production of a Superplastic Vibration-Damping Steel Sheet Composite using Friction Stir Forming, Materials Science Forum. 838-839 (2016) 574-580
[7] Hamed Mofidi Tabatabaei, Tadashi Nishihara, Friction Stir Forming for Mechanical Interlocking of Insulated Copper Wire and Zn-22Al Superplastic Alloy, Welding in the World (The International Journal of Materials Joining). 61, Issue 1 (2017) 44-55
Online since: September 2017
Authors: F.R. Ismagilov, V.E. Vavilov, A.A. Mednov, A.Kh. Miniyarov
Research of Materials for High Temperature Electromechanical
Energy Converter
F.R.
According to the LLC Holding Company" Elinar " there are insulating materials capable of providing starter-generators working temperature up to 400ºС (micanite flexible RCHN) [7].
Problem Formulation The aim of this work is to calculate the electrical features of materials on exposure to high temperatures of environment.
Conclusion So this article proved the possibility of creating a high temperature integrated aircraft engine, starter-generator, for which there are all construction materials.
Khayrullin, An Algorithm for Controlling Hybrid Magnetic Bearings Using the Magnetic Field Pattern, Journal of Computer and Systems Sciences International, 52(5) (2013) 794-799
According to the LLC Holding Company" Elinar " there are insulating materials capable of providing starter-generators working temperature up to 400ºС (micanite flexible RCHN) [7].
Problem Formulation The aim of this work is to calculate the electrical features of materials on exposure to high temperatures of environment.
Conclusion So this article proved the possibility of creating a high temperature integrated aircraft engine, starter-generator, for which there are all construction materials.
Khayrullin, An Algorithm for Controlling Hybrid Magnetic Bearings Using the Magnetic Field Pattern, Journal of Computer and Systems Sciences International, 52(5) (2013) 794-799
Online since: January 2020
Authors: Dmitri Pronichev, Aleksey Serov, Leonid Moiseevich Gurevich, Oleg V. Slautin
Materials and Methods
Test material was produced using complex technology consisting of explosion welding, rolling and heat treatment.
For multilayer materials used annealed sheets of copper M1 (240x160x1 mm) and aluminum AD1 (300x40x1 mm).
Acarer, Electrical, corrosion, and mechanical properties of aluminum-copper joints produced by explosive welding, Journal of Materials Engineering and Performance, Vol.1 (11), 2375-2379
Sedighi, Investigation of annealing treatment on the interfacial properties of explosive-welded Al/Cu/Al multilayer, Materials and Design, 37 (2011) 122-127
Trunov, Investigation of the intermetallic coating on aluminum-copper bimetal obtained by contact melting, Material Science, 8 (2015) 45-49.
For multilayer materials used annealed sheets of copper M1 (240x160x1 mm) and aluminum AD1 (300x40x1 mm).
Acarer, Electrical, corrosion, and mechanical properties of aluminum-copper joints produced by explosive welding, Journal of Materials Engineering and Performance, Vol.1 (11), 2375-2379
Sedighi, Investigation of annealing treatment on the interfacial properties of explosive-welded Al/Cu/Al multilayer, Materials and Design, 37 (2011) 122-127
Trunov, Investigation of the intermetallic coating on aluminum-copper bimetal obtained by contact melting, Material Science, 8 (2015) 45-49.
Online since: April 2021
Authors: Alexander V. Fetisov, Nikita D. Serdyukov, Vladimir A. Nosenko
The high adhesive activity of titanium alloys in interaction with abrasive materials is the main cause of poor grinding treatment.
Of the classical abrasive materials, silicon carbide is the most commonly used material for grinding titanium alloys [16-19].
[3] Masafumi Kikuchia, Yukyo Takadaa, Seigo Kiyosueb, etc., Grindbility of cast Ti-Cu alloys, Dental materials. 19 (2003) 375-381
Nosenko, Interaction intensity criterion for machined and abrasive materials in grinding (2001) Problemy Mashinostraeniya i Nadezhnos'ti Mashin. 5 (2001) 85-91
Aspinwall, Reciprocating surface grinding of a gamma titanium aluminide intermetallic alloy, Journal of Materials Processing Technology. 118 (2001) 22-28
Of the classical abrasive materials, silicon carbide is the most commonly used material for grinding titanium alloys [16-19].
[3] Masafumi Kikuchia, Yukyo Takadaa, Seigo Kiyosueb, etc., Grindbility of cast Ti-Cu alloys, Dental materials. 19 (2003) 375-381
Nosenko, Interaction intensity criterion for machined and abrasive materials in grinding (2001) Problemy Mashinostraeniya i Nadezhnos'ti Mashin. 5 (2001) 85-91
Aspinwall, Reciprocating surface grinding of a gamma titanium aluminide intermetallic alloy, Journal of Materials Processing Technology. 118 (2001) 22-28
Online since: June 2010
Authors: Liang Chi Zhang, Yi Qing Chen
Arsecularatne: International Journal of Surface Science and
Engineering, vol. 1 (2007), p. 360
[8] Y.
Galzerani and et al.: Journal of Materials Science, vol. 42 (2007), p. 7331 [10] J.
Gray: Diamond and Related Materials, vol. 4 (1995), p. 837 [12] D.
White: Journal of Materials Research, vol. 4 (1988), p. 385 [13] V.
Zerda: Diamond and Related Materials, vol. 17 (2008), p. 84
Galzerani and et al.: Journal of Materials Science, vol. 42 (2007), p. 7331 [10] J.
Gray: Diamond and Related Materials, vol. 4 (1995), p. 837 [12] D.
White: Journal of Materials Research, vol. 4 (1988), p. 385 [13] V.
Zerda: Diamond and Related Materials, vol. 17 (2008), p. 84