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Online since: December 2024
Authors: Kai Xuan Zhu, Yu Min Wu
Materials and Methods
Materials and Instruments.
Journal of Coatings Technology and Research, 2022, 19(3): 887–895
International Journal of Adhesion and Adhesives, 2020, 101: 102634
ACS Applied Polymer Materials, 2021, 3(8): 4008–4016
ACS Applied Nano Materials, 2021, 4(4): 4092–4102
Journal of Coatings Technology and Research, 2022, 19(3): 887–895
International Journal of Adhesion and Adhesives, 2020, 101: 102634
ACS Applied Polymer Materials, 2021, 3(8): 4008–4016
ACS Applied Nano Materials, 2021, 4(4): 4092–4102
Online since: March 2006
Authors: Chun Guang Li, Shui Lin Wang, Yu Yong Jiao, Haibin Xiao
Discussion on the Use of Parameters of Drucker-Prager Criterion
Shuilin Wang a, Yuyong Jiao
b, Haibin Xiao c and Chunguang Li d
Institute of Rock and Soil Mechanics, Chinese Academy of Sciences, Wuhan, P.
Material parameters are E=27.5GPa, v=0.25, C=2.5MPa, φ=56.30, density ρ =2700kg/m3 .
Chen: Yield criterion and constitutive model of perfectly plastic materials.
Chinese Journal of Geotechnical Engineering, Vol.6, No.5, (1984), p.13 [4] Y.R.
Chinese Journal of Rcok Mechanics and Engineering, Vol.22, No.12, (2003), p.1943
Material parameters are E=27.5GPa, v=0.25, C=2.5MPa, φ=56.30, density ρ =2700kg/m3 .
Chen: Yield criterion and constitutive model of perfectly plastic materials.
Chinese Journal of Geotechnical Engineering, Vol.6, No.5, (1984), p.13 [4] Y.R.
Chinese Journal of Rcok Mechanics and Engineering, Vol.22, No.12, (2003), p.1943
Online since: October 2012
Authors: Rong Chang Li, Ai Xia He
Introduction
Forging is the process of large engineering plastic materials, an important branch.
Conclusions Forging is the process of large engineering plastic materials, an important branch.
Materials and Design,2000,(21):279-286
Journal of Materials Processing Technology. 2002, (123):61-66
Chinese Journal of Mechanical Engineering, 2000, 13 (4):263-265.
Conclusions Forging is the process of large engineering plastic materials, an important branch.
Materials and Design,2000,(21):279-286
Journal of Materials Processing Technology. 2002, (123):61-66
Chinese Journal of Mechanical Engineering, 2000, 13 (4):263-265.
Online since: July 2011
Authors: Bei Qing Huang, Xian Fu Wei, Shao Hong Gao
Introduction
With the development of digital technology, information technology, materials science and the application in the field of printing technology, the digital printing technology has been rapidly development.
Fluorescent inkjet ink is the key material of fluorescence inkjet imaging digital printing.
Experiments Experimental materials Resins.
[2] Wei Xianfu, Huang Beiqing, Li Yuanyuan, Wang Na, Information Recording Materials 2008.03:P1
[3] Zhang Wenguan; Yang Lianming; Wang Wenguang; Jiang Hejin JOURNAL OF BEIJING INSTITUTE OF PRINTING, 1997.02:P46 [4] Liang Li-juan; Huang Bei-qing; Wei Xian-fu; Wang Fu-rong Journal of Beijing Institute of Graphic Communication 2010.06:P33 [5] Liang Lijuan; Huang Beiqing; Wei Xianfu.
Fluorescent inkjet ink is the key material of fluorescence inkjet imaging digital printing.
Experiments Experimental materials Resins.
[2] Wei Xianfu, Huang Beiqing, Li Yuanyuan, Wang Na, Information Recording Materials 2008.03:P1
[3] Zhang Wenguan; Yang Lianming; Wang Wenguang; Jiang Hejin JOURNAL OF BEIJING INSTITUTE OF PRINTING, 1997.02:P46 [4] Liang Li-juan; Huang Bei-qing; Wei Xian-fu; Wang Fu-rong Journal of Beijing Institute of Graphic Communication 2010.06:P33 [5] Liang Lijuan; Huang Beiqing; Wei Xianfu.
Online since: February 2014
Authors: Yusairie Mohd, Siti Zairyn Fakurol Rodzi
Introduction
Electrochromic material is able to exhibit colouration and bleaching cycles repeatedly by an external voltage.
Among the materials of electrochromism (EC), nickel oxide (NiO) film is an attractive material which displays anodic colouration.
Since the electrochromic devices are promising in controlling heat and light in buildings, the study on the electrochromic materials has been receiving a lot more attention nowadays.
Yoshikawa: Journal of Colloids and Surfaces: Physicochemical and Engineering Aspects Vol. 296 (2007), No. 1, pp. 222-229 [9] K.W.
Kim: Journal of The Electrochemical Society Vol. 152 (2005) issue 11 pp. 2123-2129 [10] L.H.M Krings and Talen W 1998 Solid Energy Material Solar Cells 54 27-37 [11] J.
Among the materials of electrochromism (EC), nickel oxide (NiO) film is an attractive material which displays anodic colouration.
Since the electrochromic devices are promising in controlling heat and light in buildings, the study on the electrochromic materials has been receiving a lot more attention nowadays.
Yoshikawa: Journal of Colloids and Surfaces: Physicochemical and Engineering Aspects Vol. 296 (2007), No. 1, pp. 222-229 [9] K.W.
Kim: Journal of The Electrochemical Society Vol. 152 (2005) issue 11 pp. 2123-2129 [10] L.H.M Krings and Talen W 1998 Solid Energy Material Solar Cells 54 27-37 [11] J.
Online since: August 2012
Authors: Gui Bing Pang, Adayi Xieeryazidan, Muhetar Wumerhali
The initial inter-electrode gap in ECFP has an important influence on the removal material.
Fig.5 Surface roughness vs gap Fig.6 Surface roughness vs finishing time Work-piece Material Composition.
Acknowledgements The research is supported by the National Nature Science Foundation of China under Grant 50965017.
Malapati: International Journal of Machine Tools & Manufacture, Vol.44 (2004), p.1577
Zhang: Journal of Dalian University of Technology, Vol.43 (2003)No.4, p.452
Fig.5 Surface roughness vs gap Fig.6 Surface roughness vs finishing time Work-piece Material Composition.
Acknowledgements The research is supported by the National Nature Science Foundation of China under Grant 50965017.
Malapati: International Journal of Machine Tools & Manufacture, Vol.44 (2004), p.1577
Zhang: Journal of Dalian University of Technology, Vol.43 (2003)No.4, p.452
Online since: June 2014
Authors: David Toe, Stéphane Lambert, Franck Bourrier, Frédéric Berger
Materials and methods
Experimental set up.
The slope surface and the embankment granular materials consisted of a mixture of fine well graded sand, gravel (1mm-4mm) and water, in a mass ratio of 60/35/5.
The thickness of the granular material on the slope was 1cm.
[2] S.Lambert, F.Bourrier, and D.Toe : Improving three-dimensional rockfall trajectory simulation codes for assessing the efficiency of protective embankments, International Journal of Rock Mechanics and Mining Sciences, Vol. 60, (2013), p. 26-36
[6] R.Walton and L.Braun : Viscosity, granular-temperature, and stress calculations for shearing assemblies of inelastic, frictional disks, Journal of Rheology, Vol. 30 (5), (1985) , p. 949-980.
The slope surface and the embankment granular materials consisted of a mixture of fine well graded sand, gravel (1mm-4mm) and water, in a mass ratio of 60/35/5.
The thickness of the granular material on the slope was 1cm.
[2] S.Lambert, F.Bourrier, and D.Toe : Improving three-dimensional rockfall trajectory simulation codes for assessing the efficiency of protective embankments, International Journal of Rock Mechanics and Mining Sciences, Vol. 60, (2013), p. 26-36
[6] R.Walton and L.Braun : Viscosity, granular-temperature, and stress calculations for shearing assemblies of inelastic, frictional disks, Journal of Rheology, Vol. 30 (5), (1985) , p. 949-980.
Online since: November 2012
Authors: Ze Jun Liu, Zhen He, Jian Jun Wu, Xiao Ping Hu
Rahimi, International Journal of Energetic Materials and Chemical Propulsion 5(1) (2002) 172-194
Sazhin, Progress in Energy and Combustion Science 32 (2006) 162–214
Natan, Combust Science and Technology 156 (2000) 139-157
Natan, Combustion Science and Technology 178 (2006) 1185-1199
Barry Greenberg, Journal of Propulsion and Power 26 (4) (2010) 765-771
Sazhin, Progress in Energy and Combustion Science 32 (2006) 162–214
Natan, Combust Science and Technology 156 (2000) 139-157
Natan, Combustion Science and Technology 178 (2006) 1185-1199
Barry Greenberg, Journal of Propulsion and Power 26 (4) (2010) 765-771
Online since: September 2008
Authors: Lars Gunnar Johansson, Jan Erik Svensson, J. Pettersson
The corrosive effect of alkali
chlorides towards chromia forming metallic materials has also been studied by other workers [10-
15].
-E., Materials Science Forum, 2006. 522-523: p. 563-570
G., Material Science Forum, 2004. 461-464: p. 109-116
J., Materials Science Forum, 1997. 251-254: p. 527- 534
McNallan, Metallurgical Transactions a-Physical Metallurgy and Materials Science, 1987. 18(6): p. 1099-1107
-E., Materials Science Forum, 2006. 522-523: p. 563-570
G., Material Science Forum, 2004. 461-464: p. 109-116
J., Materials Science Forum, 1997. 251-254: p. 527- 534
McNallan, Metallurgical Transactions a-Physical Metallurgy and Materials Science, 1987. 18(6): p. 1099-1107
Online since: October 2013
Authors: A. Alaskari, A. Dodek, P. Fajnor, T. Liptakova
Fajnor1,d
1University of Zilina, Faculty of Mechanical Engineering, Department of Materials Engineering, Univerzitna 1, 010 26 Zilina, Slovak Republic.
2Department of Mechanical Production Technology, College of Technological Studies, PAAET, P.O.
References [1] Military handbook material deterioration prevention and control, Guide of army material, part one, Metals (Mll Hdbk-735 (MR)), U.S.A.
Screiner: In situ studies of initial atmospheric corrosion of copper: Influence of humidity, sulfur dioxides, ozone and nitrogen dioxide, Journal of Electrochem Soc., Vol. 147, no. 7 (2000), pp. 2543-2551
Balasubramaniam: Microstructural characterization of copper corrosion in aqueous and soil environments, Materials Characterization, Vol. 55, no. 2 (2005), pp.127-135
Material Engineering, University of Zilina, Slovak Republic
References [1] Military handbook material deterioration prevention and control, Guide of army material, part one, Metals (Mll Hdbk-735 (MR)), U.S.A.
Screiner: In situ studies of initial atmospheric corrosion of copper: Influence of humidity, sulfur dioxides, ozone and nitrogen dioxide, Journal of Electrochem Soc., Vol. 147, no. 7 (2000), pp. 2543-2551
Balasubramaniam: Microstructural characterization of copper corrosion in aqueous and soil environments, Materials Characterization, Vol. 55, no. 2 (2005), pp.127-135
Material Engineering, University of Zilina, Slovak Republic