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Study of Friction Stir Welding Technics and Weld Performance of Dissimilar 6063-3A21 Aluminum Alloys
Online since: July 2011
Authors: Zhan Ying Feng, Wei Zhang, Xing Mei Feng, Lei Wang, Jian Jun Zhu
Several parameters were chosen to find out the appropriate positions of two different materials, parameters and results are shown in Table 3.
As a result, we can find that tensile strength of the friction stir weld is better than base materials with lower tensile strength.
Reference [1] Liu Xiaowen, Chen Dan and Yan Junhui: Mechanical science and technology Vol. 23(2004), p. 1430 [2] Yu Yongzheng, Luan Guohong and Sun Chengbin: Transactions of the China Welding Institution Vol. 26(2005), p. 67 [3] Liu Geping, Huang Chunping and Xing Li: Journal of Nanchang Hangkong University (Natural Science) Vol. 22(2008), p. 15 [4] P.
Panella: Journal of Materials Processing Technology Vol. 206 (2008), p. 249 [5] A.
Withers: Materials Science and Engineering A Vol. 441 (2006), p. 187
As a result, we can find that tensile strength of the friction stir weld is better than base materials with lower tensile strength.
Reference [1] Liu Xiaowen, Chen Dan and Yan Junhui: Mechanical science and technology Vol. 23(2004), p. 1430 [2] Yu Yongzheng, Luan Guohong and Sun Chengbin: Transactions of the China Welding Institution Vol. 26(2005), p. 67 [3] Liu Geping, Huang Chunping and Xing Li: Journal of Nanchang Hangkong University (Natural Science) Vol. 22(2008), p. 15 [4] P.
Panella: Journal of Materials Processing Technology Vol. 206 (2008), p. 249 [5] A.
Withers: Materials Science and Engineering A Vol. 441 (2006), p. 187
Online since: November 2011
Authors: Li Li, Er Bao Liu, Zhen Li, Muhammad Iqbal Sabir, Wan Tao Guo
D.: Journal of Composite Materials Vol. 28 (1994), p.112
B.: Journal of Composite Materials Vol. 33 (1999), p. 1457-1469
:Journal of Composite Materials Vol. 28 (1994), p.1840-1854
:Mechanics of Advanced Materials and Structures, Vol.10 (2003),p. 43–75
:Development and Application of Materials, Vol. 14 (1992), p. 9-14.
B.: Journal of Composite Materials Vol. 33 (1999), p. 1457-1469
:Journal of Composite Materials Vol. 28 (1994), p.1840-1854
:Mechanics of Advanced Materials and Structures, Vol.10 (2003),p. 43–75
:Development and Application of Materials, Vol. 14 (1992), p. 9-14.
Online since: April 2014
Authors: Chen Kang Huang, Yun Ching Leong
The model is then used to predict the composite thermal conductivity for several composite materials.
Introduction For various purposes, various dopants are placed into matrix materials to form composite materials.
The enhancement of mechanical and/ or thermal properties is the main purpose of producing composite materials of this kind [1].
[3] J.P.Gwinn, R.L.Webb, Performance and testing of thermal interface materials, Microelectronics Journal, vol. 34, pp. 215-222, (2003)
[9] J.Wang, J.K.Carson, M.F.North, D.J.Cleland , A new approach to modelling the effective thermal conductivity of heterogeneous materials, International Journal of Heat and Mass Transfer, vol. 49, pp. 3075-3083
Introduction For various purposes, various dopants are placed into matrix materials to form composite materials.
The enhancement of mechanical and/ or thermal properties is the main purpose of producing composite materials of this kind [1].
[3] J.P.Gwinn, R.L.Webb, Performance and testing of thermal interface materials, Microelectronics Journal, vol. 34, pp. 215-222, (2003)
[9] J.Wang, J.K.Carson, M.F.North, D.J.Cleland , A new approach to modelling the effective thermal conductivity of heterogeneous materials, International Journal of Heat and Mass Transfer, vol. 49, pp. 3075-3083
Online since: February 2026
Authors: Mojtaba Ayatollahi, Seyyed Mohammad Moein Hashemi
Sze, A micro-mechanics model for imperfect interface in dielectric materials, Mechanics of Materials, 33 (2001) 363–370
Kamali, A piezoelectric-inhomogeneity system with imperfect interface, International Journal of Engineering Sciences, 44 (2006) 291–311
Sano, Intensity of singular stress fields (ISSFs) in micro-bond test in comparison with ISSFs in pull-out test, International Journal of Mechanical Sciences 183 (2020) 105817
Goloubeva, Electroelastic properties of cracked piezoelectric materials under longitudinal shear, Mechanics of Materials 24 (1996) 287-303
Wu, A moving conducting crack at the interface of two dissimilar piezoelectric materials, International Journal of Solids and Structures, 40 (2003) 2381–2399.
Kamali, A piezoelectric-inhomogeneity system with imperfect interface, International Journal of Engineering Sciences, 44 (2006) 291–311
Sano, Intensity of singular stress fields (ISSFs) in micro-bond test in comparison with ISSFs in pull-out test, International Journal of Mechanical Sciences 183 (2020) 105817
Goloubeva, Electroelastic properties of cracked piezoelectric materials under longitudinal shear, Mechanics of Materials 24 (1996) 287-303
Wu, A moving conducting crack at the interface of two dissimilar piezoelectric materials, International Journal of Solids and Structures, 40 (2003) 2381–2399.
Online since: January 2014
Authors: An Guo Huang, Shu Hui Hu, Ge Yang, Yuan Liu
Journal of Materials Science: Materials in Medicin. 13 (2002) 601-605
,Journal of Materials Science: Materials in Medicine. 10(1990) 269-273
Journal of Materials Science: Materials in Medicine. 10(10-11) (1999) 671-676
Materials Research Bulletin.45 (2010) 1304-1310
,Journal of Biomedical Materials Research.87 (2008) 429-433
,Journal of Materials Science: Materials in Medicine. 10(1990) 269-273
Journal of Materials Science: Materials in Medicine. 10(10-11) (1999) 671-676
Materials Research Bulletin.45 (2010) 1304-1310
,Journal of Biomedical Materials Research.87 (2008) 429-433
Online since: January 2012
Authors: Chen Xu, Yong Li Zhang, Jing Yan, Yu Liu, Mao Cong Yi, Zhi Ming Sun, Jian Ping Gao
Reference
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[8] F.C.M.Driessens, M.G.Boltong, O.Bermudez et al: Journal Material Science Material in Medicine Vol. 4(1993), p. 503-508
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[13] C.J.Gao, J.P.Gao, X.D.You et al: Journal Biomedical Material Research A Vol. 73(2005), p. 244-253.
[2] W.K.Choll, T.Robert, L.Lichun et al: Jourmal of Biomedical Materials Research Vol. 85(2008), p. 1114-1119
[8] F.C.M.Driessens, M.G.Boltong, O.Bermudez et al: Journal Material Science Material in Medicine Vol. 4(1993), p. 503-508
[11] M.Nilsson, L.Wielanek, J.S.Wang, et al: Journal of Material Science Material in Medicine Vol. 14(2003), p. 399-404
[13] C.J.Gao, J.P.Gao, X.D.You et al: Journal Biomedical Material Research A Vol. 73(2005), p. 244-253.
Online since: December 2024
Authors: Fu Tao Wang, Ming Fei Xiong, Bao Jun Cheng, Fang Ao, Bo Yuan Shi
Mechanical Performance Testing and Material Constitutive Models
In this experiment, the selected binder materials were composed of cement, mineral powder, iron tailings powder, and silica fume in a ratio of 55:25:10:10 respectively.
Journal of Building Engineering, 2023, 79: 107766
Construction and building materials, 2020, 247: 118491
Journal of Building Engineering, 2023, 76: 107315
Journal of Tongji University (Natural Science Edition), 2016, 44(04): 499-506
Journal of Building Engineering, 2023, 79: 107766
Construction and building materials, 2020, 247: 118491
Journal of Building Engineering, 2023, 76: 107315
Journal of Tongji University (Natural Science Edition), 2016, 44(04): 499-506
Online since: September 2014
Authors: Wei Feng Li, Xiao Dong Shen, Su Hua Ma
Recent Progress on the Application of BASE in energy storage and environmental protection
Weifeng Li 1, a, Suhua Ma 1,b and Xiaodong Shen1,2,c
1College of Material Science and Engineering, Nanjing University of Technology, Nanjing,China
2State Key Laboratory of Materials-Oriented Chemical Engineering, Nanjing,China
alee@njtech.edu.cn, byc982@163.com, cxdshen@njtech.edu.cn
Keywords: Energy storage, BASE, AMTEC, NEMCA, Na Based Batteries
Abstract: Beta-alumina solid electrolyte (BASE) is a fast ion conductor material which shows high conductivity of sodium ions and low electronic conductivity.
By optimization of raw materials and improvement of the molding and firing process , for example,using low-cost materials such as boehmite, etc.
Yao, J.T.Kummer:Journal of Inorganic and Nuclear Chemistry, Vol.29(1967):2453-2475
[4] Poullikkas, Andreas:Renewable and Sustainable Energy Reviews,Vol.27,(2013): 778-788 [5] T.Oshima, M.Kajita,A.Okuno:International Journal of Applied Ceramic Technology,Vol.1 (2004): 269-276 [6] Z.Y.Wen,Y.Y.Hu , X.W.Wu,et al:Advanced Functional Materials,Vol.23(2013):1005-1018 [7] X.C.Lu,L.P.John,S.Vincent,et al:JOM, Vol.62(2010):31-36 [8] C.H.Dustmann: Journal of Power Sources, Vol.127(2004):85-92 [9] M.A.KLodhi, A.Daloglu:Journal of Power Sources,Vol.93(2001):32-40 [10] O.A.
Vayenas,et al:Journal of Catalysis,Vol.166(1997):218-228
By optimization of raw materials and improvement of the molding and firing process , for example,using low-cost materials such as boehmite, etc.
Yao, J.T.Kummer:Journal of Inorganic and Nuclear Chemistry, Vol.29(1967):2453-2475
[4] Poullikkas, Andreas:Renewable and Sustainable Energy Reviews,Vol.27,(2013): 778-788 [5] T.Oshima, M.Kajita,A.Okuno:International Journal of Applied Ceramic Technology,Vol.1 (2004): 269-276 [6] Z.Y.Wen,Y.Y.Hu , X.W.Wu,et al:Advanced Functional Materials,Vol.23(2013):1005-1018 [7] X.C.Lu,L.P.John,S.Vincent,et al:JOM, Vol.62(2010):31-36 [8] C.H.Dustmann: Journal of Power Sources, Vol.127(2004):85-92 [9] M.A.KLodhi, A.Daloglu:Journal of Power Sources,Vol.93(2001):32-40 [10] O.A.
Vayenas,et al:Journal of Catalysis,Vol.166(1997):218-228
Online since: December 2009
Authors: Alexander Brosius, A. Erman Tekkaya, Thomas Kloppenborg
Johnsen, A study of the effect of the process variables in unsymmetrical singlehole
and multi-hole extrusion processes, Journal of Materials Processing Technology (JMPT)
Vol.73 (1998), p.213-225
Sheppard, Effect of die pockets on multi-hole die extrusion, Material Science and Engineering Vol.A407 (2005), 89-97
Ulysse: Extrusion die design for flow balance using FE and optimization methods, Journal of Mechanical Sciences Vol.44 (2002), p.319-341
Kim: Optimal die profile design for uniform microstructure in hot extruded product, Journal of Machine Tools & Manufacture Vol.40 (2000), p.1457-1478
Xinwu: Numerical simulation and die structure optimization of an aluminum rectangular hollow pipe extrusion process, Materials Science and Engineering Vol.435-436, 266-274
Sheppard, Effect of die pockets on multi-hole die extrusion, Material Science and Engineering Vol.A407 (2005), 89-97
Ulysse: Extrusion die design for flow balance using FE and optimization methods, Journal of Mechanical Sciences Vol.44 (2002), p.319-341
Kim: Optimal die profile design for uniform microstructure in hot extruded product, Journal of Machine Tools & Manufacture Vol.40 (2000), p.1457-1478
Xinwu: Numerical simulation and die structure optimization of an aluminum rectangular hollow pipe extrusion process, Materials Science and Engineering Vol.435-436, 266-274