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Online since: June 2006
Authors: Xiao Ping Zhang, Yiu Wing Mai, C.S.H. Lim, Yao Wu Shi
Shi
3
1
Institute of Materials Science and Technology, School of Mechanical Engineering, South China
University of Technology, Guangzhou 510640, China
2
CAMT, School of Aerospace, Mechanical and Mechatronic Engineering (AMME), the University of
Sydney, NSW 2006, Australia
3
School of Materials Science and Engineering, Beijing Polytechnic University, China
a mexzhang@scut.edu.cn or xzhang@aeromech.usyd.edu.au
Keywords: Thermal fatigue, Creep resistance, Nano-composite solder, Tin-lead solder, Fracture.
YW Mai at the Centre for Advanced Materials Technology, School of AMME, the University of Sydney, in the thematic areas of "Deformation and Toughening Mechanics and Mechanisms of Nano-scale Materials".
Plumbridge: Journal of Materials Science Vol. 31 (1996), p. 2501
Xia: Journal of Electronic Materials Vol.31 (2002), p.1122
Shi: Journal of Materials Science: Materials in Electronics Vol.15 (2004), p. 511
YW Mai at the Centre for Advanced Materials Technology, School of AMME, the University of Sydney, in the thematic areas of "Deformation and Toughening Mechanics and Mechanisms of Nano-scale Materials".
Plumbridge: Journal of Materials Science Vol. 31 (1996), p. 2501
Xia: Journal of Electronic Materials Vol.31 (2002), p.1122
Shi: Journal of Materials Science: Materials in Electronics Vol.15 (2004), p. 511
Online since: February 2016
Authors: Ilia V. Chumanov, Dmitry V. Sergeev, Andrey N. Anikeev
As the raw materials used by steel grade 10880.
References [1] Hai-Liang Yu, Jin-Wu Kang, Tian-You Huang, Efficient and economical manufacture of heavy steel castings, Frontiers of Materials Science in China. 4 (2010) 332-338
Evdokimenko, Structure and wear regularities of coatings from composite metal-ceramic materials of the SiC-Al2O3-Ni-Al system, Journal of Superhard Materials. 2 (2012) 110-117
Afsaneh, Bending Properties of Al-Steel and Steel-Steel Composite Metal Foams, Metallurgical and Materials Transactions. 11 (2010) 2784-2793
Matsera, Densification and structure formation in the sintering of composite materials based on the IV–V group transition metals 1, Sintering of TiN−Cr composite materials, Powder Metallurgy and Metal Ceramics. 9-10 (1998) 476-482
References [1] Hai-Liang Yu, Jin-Wu Kang, Tian-You Huang, Efficient and economical manufacture of heavy steel castings, Frontiers of Materials Science in China. 4 (2010) 332-338
Evdokimenko, Structure and wear regularities of coatings from composite metal-ceramic materials of the SiC-Al2O3-Ni-Al system, Journal of Superhard Materials. 2 (2012) 110-117
Afsaneh, Bending Properties of Al-Steel and Steel-Steel Composite Metal Foams, Metallurgical and Materials Transactions. 11 (2010) 2784-2793
Matsera, Densification and structure formation in the sintering of composite materials based on the IV–V group transition metals 1, Sintering of TiN−Cr composite materials, Powder Metallurgy and Metal Ceramics. 9-10 (1998) 476-482
Online since: January 2013
Authors: Lei Cui
However, the application results show that the traditional reinforcement materials are not effective, for the cement based materials expose flaws at the nanoscale.
[2] X.M.Liu, S.P.Wu: Construction and Building Materials,Vol.25 (2011), p.1807
[4] B.Chen, J.Y.Liu: Construction and Building Materials,Vol.22 (2008), p.2196
[7] Q.Z.Mao, B.Y.Zhao and D.R.Shen: Materials Research Journal,Vol.11 (1997) No.2, p.195
[12] H.Shen, W.L.Wang, M.Chen and J.D.Li: Journal of Inorganic Materials, Vol.18 (2003) No.5, p.1063
[2] X.M.Liu, S.P.Wu: Construction and Building Materials,Vol.25 (2011), p.1807
[4] B.Chen, J.Y.Liu: Construction and Building Materials,Vol.22 (2008), p.2196
[7] Q.Z.Mao, B.Y.Zhao and D.R.Shen: Materials Research Journal,Vol.11 (1997) No.2, p.195
[12] H.Shen, W.L.Wang, M.Chen and J.D.Li: Journal of Inorganic Materials, Vol.18 (2003) No.5, p.1063
Online since: August 2021
Authors: Victor Georgievich Shmorgun, Artem I. Bogdanov, Dmitriy V. Shcherbin
Materials and research methods
The investigations were carried out on samples of the explosion-welded composite Cr20Ni80 alloy + AD1 aluminum (2 + 1 mm).
Schütze, Design model for diffusion coatings formed via pack cementation, Materials and Corrosion. 65(3) (2014) 312-318
Wadley, NiAl bond coats made by a directed vapor deposition approach, Materials Science and Engineering: A. 394(1-2) (2005) 43-52
Series: Materials Science and Engineering. 116 (2016) 012018
Schuster, Reaction scheme and liquidus surface in the al-rich section of the Al-Cr-Ni System, Metallurgical and Materials Transactions A. 39(10) (2008) 2363-2369
Schütze, Design model for diffusion coatings formed via pack cementation, Materials and Corrosion. 65(3) (2014) 312-318
Wadley, NiAl bond coats made by a directed vapor deposition approach, Materials Science and Engineering: A. 394(1-2) (2005) 43-52
Series: Materials Science and Engineering. 116 (2016) 012018
Schuster, Reaction scheme and liquidus surface in the al-rich section of the Al-Cr-Ni System, Metallurgical and Materials Transactions A. 39(10) (2008) 2363-2369
Online since: July 2011
Authors: John F. Grandfield, C. J. Davidson, Mark Easton, M.A. Rhamdhani, M. A. Dewan, Jason B. Mitchell, G. A. Brooks
Materials Science Forum, 2009. 630: p. 129-36
[7] Dube, G., Removal of Impurities from Molten Aluminium, A.I.
Journal of Materials Processing Technology, 2007. 182(1-3): p. 450-5 [22] Laz, P.J. & B.M.
Journal of Materials Science, 1998. 33(9): p. 2269-81 [24] Mollard, F.R., M.C.
Journal of Materials Science, 1996. 31(5): p. 1243-54 [27] Groteke, D.E., Eliminating Hard Spots from Al Die Casting.
Journal of Materials Processing Technology, 2005. 160(2): p. 174-82 [31] Karabay, S. & I.
Journal of Materials Processing Technology, 2007. 182(1-3): p. 450-5 [22] Laz, P.J. & B.M.
Journal of Materials Science, 1998. 33(9): p. 2269-81 [24] Mollard, F.R., M.C.
Journal of Materials Science, 1996. 31(5): p. 1243-54 [27] Groteke, D.E., Eliminating Hard Spots from Al Die Casting.
Journal of Materials Processing Technology, 2005. 160(2): p. 174-82 [31] Karabay, S. & I.
Online since: August 2009
Authors: Ari Sulistyo Rini, Mohd Ambar Yarmo, Mohd. Zulfa Ya, Abdullah Huda
The purpose of ice-bathing is to avoid the large sizes of particle formed when TiCl
particles (20 to 50nm) were formed using CTAB
and precipitation (Lee et al, 2008
dissolving TiCl4 in ethanol at a
structure were then evaluated by
Materials and Method
Titanium tetrachloride TiCl4 (99%)
Aldrich, were used as starting materials
was cetyltrimethylammonium bromide (CTAB){CH
Merck.
(99%), provided by Merck, and absolute ethanol were used as starting materials, without further purification.
Dye-sensitized solar cell: Journal of Photochemistry and Photobiology C, 2003, 4, 145 [5] Jinting Jiu et al.,.
Performance of dye-sensitized solar cell based on nanocrystals TiO2 film prepared with mixed template method: Solar Energy Materials and Solar Cells, 2005, 87, 77 [6] Jinting Jiu et al., Preparation of highly photocatalytic active nano-scale TiO2 by mixed template method: Materials Letters, 2004, 58, 3915 [7] I.Kartini et al., A novel route to the synthesis of mesoporous titania with full anatase nanocrystalline domains: Journal of Sol-Gel and Tech., 2004, 31, 185 [8] Kavan et al.,.
Mesoporous thin film TiO2 electrodes: Microp. and Mesoporous Material, 2001, 44-45, 653 [9] D.U.Lee et al.,.
(99%), provided by Merck, and absolute ethanol were used as starting materials, without further purification.
Dye-sensitized solar cell: Journal of Photochemistry and Photobiology C, 2003, 4, 145 [5] Jinting Jiu et al.,.
Performance of dye-sensitized solar cell based on nanocrystals TiO2 film prepared with mixed template method: Solar Energy Materials and Solar Cells, 2005, 87, 77 [6] Jinting Jiu et al., Preparation of highly photocatalytic active nano-scale TiO2 by mixed template method: Materials Letters, 2004, 58, 3915 [7] I.Kartini et al., A novel route to the synthesis of mesoporous titania with full anatase nanocrystalline domains: Journal of Sol-Gel and Tech., 2004, 31, 185 [8] Kavan et al.,.
Mesoporous thin film TiO2 electrodes: Microp. and Mesoporous Material, 2001, 44-45, 653 [9] D.U.Lee et al.,.
Online since: October 2011
Authors: Zhi Wei Xing, Jie Fu, Miao Yu
Wang: Smart Materials and structures, vol.15(2006), p.
Wang: Smart Materials and structures, vol. 19 (2010), p. 065023
Smart materials & Structures, vol. 13(2004), p.1203-1210
Huang: Journal of Intelligent Material Systems and Structures, vol. 17(2006), p. 801-806
Guo: Journal of Intelligent Material Systems and Structures, vol. 17(2006), p. 871-881.
Wang: Smart Materials and structures, vol. 19 (2010), p. 065023
Smart materials & Structures, vol. 13(2004), p.1203-1210
Huang: Journal of Intelligent Material Systems and Structures, vol. 17(2006), p. 801-806
Guo: Journal of Intelligent Material Systems and Structures, vol. 17(2006), p. 871-881.
Online since: February 2016
Authors: Olga V. Dudko, Victor I. Shtuka
The elastic properties of materials are described in terms of the nonlinear five-constant model [1] (Murnaghan material).
Numerical results The results of computational experiments are shown for the following conjugated materials [1,11,12]: steel (, , , , , ) and glass (, , , ===).
Lurie, Nonlinear theory of elasticity, Elsevier Science Publisher B.V., North-Holland, Amsterdam, 1990
Polonik, Development of approaches to the creep process modeling under large deformations, Applied Mechanics and Materials. 249-250 (2013) 833-837.
Self-similar reflection of longitudinal shock wave from free boundary in elastic medium, Advanced Materials Research, 1040 (2014) 652-657.
Numerical results The results of computational experiments are shown for the following conjugated materials [1,11,12]: steel (, , , , , ) and glass (, , , ===).
Lurie, Nonlinear theory of elasticity, Elsevier Science Publisher B.V., North-Holland, Amsterdam, 1990
Polonik, Development of approaches to the creep process modeling under large deformations, Applied Mechanics and Materials. 249-250 (2013) 833-837.
Self-similar reflection of longitudinal shock wave from free boundary in elastic medium, Advanced Materials Research, 1040 (2014) 652-657.
Online since: September 2013
Authors: Jamaluddin Mahmud, Muhammad Hussain Ismail, Nur Hanis Arzami, Nor Fazli Adull Manan
Preparing materials and samples compulsory in experiment based research.
Available at Strength of Materials laboratory in Faculty of Mechanical Engineering UiTM Shah Alam.
Gilchrist, Mélanie Otténio, Characterization of the anisotropic mechanical properties of excised human skin, Journal of the Mechanical Behavior of the Biomedical Materials. 5 (2012) 139-148 [2] Langer, K.
The Imperial Academy of Science, Vienna.
Evans, An anisotropic, hyperelastic model for skin: Experimental measurements, finite element modelling and identification of parameters for human and murine skin, Journal of the Mechanical Behavior of the Biomedical Materials. 18 (2013) 167-180 [4] Guozheng Kang and Xinfeng W, Ratchetting of porcine skin under uniaxial cyclic loading, Journal of the Mechanical Behavior of the Biomedical Materials. 4 (2011) 498-506 [5] Jansen, L., Rottier, P., Some mechanical properties of human abdominal skin measured on excised strips.
Available at Strength of Materials laboratory in Faculty of Mechanical Engineering UiTM Shah Alam.
Gilchrist, Mélanie Otténio, Characterization of the anisotropic mechanical properties of excised human skin, Journal of the Mechanical Behavior of the Biomedical Materials. 5 (2012) 139-148 [2] Langer, K.
The Imperial Academy of Science, Vienna.
Evans, An anisotropic, hyperelastic model for skin: Experimental measurements, finite element modelling and identification of parameters for human and murine skin, Journal of the Mechanical Behavior of the Biomedical Materials. 18 (2013) 167-180 [4] Guozheng Kang and Xinfeng W, Ratchetting of porcine skin under uniaxial cyclic loading, Journal of the Mechanical Behavior of the Biomedical Materials. 4 (2011) 498-506 [5] Jansen, L., Rottier, P., Some mechanical properties of human abdominal skin measured on excised strips.
Online since: November 2010
Authors: Ping Ning, Kai Huang, Guang Fei Qu, Hua Ping Gao, Li Juan Jia, Wei Juan Mao, Xiang Feng Xiong, Su Juan Liu
Fig.1.The randomly stacking manure
Materials and methods
Research material.
[2].XuZu-xin,JiangYa-ping:Journal of Tongji University(Natural Science). 1044-1048(2009),p.37
[3].ZhangXu-mei,DongYuan-hua,et al: Environmental Science. 1312-1318(2007),p.28(6) [4].LiShu-tian,LiuRong-le,ShanHong: Journal of Agro-Environment Science. 179-184(2009),p.28
[8].ChenZhi-liang,CehnJiong, et al: Journal of SoiI and Water Conservation.30-33(2008),p.25(2)
[9].DuHui-ying,ChengBo,ZhangAi:Journal of Agro-Environment Science.476-478(2007),p.26
[2].XuZu-xin,JiangYa-ping:Journal of Tongji University(Natural Science). 1044-1048(2009),p.37
[3].ZhangXu-mei,DongYuan-hua,et al: Environmental Science. 1312-1318(2007),p.28(6) [4].LiShu-tian,LiuRong-le,ShanHong: Journal of Agro-Environment Science. 179-184(2009),p.28
[8].ChenZhi-liang,CehnJiong, et al: Journal of SoiI and Water Conservation.30-33(2008),p.25(2)
[9].DuHui-ying,ChengBo,ZhangAi:Journal of Agro-Environment Science.476-478(2007),p.26