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Online since: August 2014
Authors: Gui Fang Liu, Yuan Gao, Ya Quan Sun, Yu Ping Zhang, Hong Mei Yan
Materials and methods
Materials.
Journal of Beijing Technology and Business University (Natural Science Edition),2009, 27(1): 11-14.
Environmental Science & Technology, 2003, 37(20): 4790-4797
Chemical Engineering Journal, 2011, 167: 172-182
New Journal of Chemistry, 1998, 22(3): 263-268.
Journal of Beijing Technology and Business University (Natural Science Edition),2009, 27(1): 11-14.
Environmental Science & Technology, 2003, 37(20): 4790-4797
Chemical Engineering Journal, 2011, 167: 172-182
New Journal of Chemistry, 1998, 22(3): 263-268.
Online since: September 2017
Authors: Konstantin N. Vdovin, Nikolay A. Feoktistov, D.A. Gorlenko
Cabrera, Effect of Nb and Mo on the hot ductility behavior of a high-manganese austenitic Fe– 21Mn– 1.3Al– 1.5Si– 0.5C T WIP steel, Materials Science and Engineering, A 616 (2014) 229-239
Hejazi, The fracture and plastic deformation of aluminum alloyed Hadfield steels, Materials Science and Engineering, A 513-514 (2009) 72-76
Lee, Stacking fault energy and plastic deformation of fully austenitic high manganese steels: Effect of Al addition, Materials Science and Engineering, A 527 (2010) 3651-3661
Jiulin, Abrasion-resistant as-cast manganese steel with nodular carbide modified by calcium, Journal of Materials Science Letters, 9 (1990) 616-617
Wen, Thermodynamic calculation of stacking fault energy of the Fe– Mn– Si– C high manganese steels, Materials Science and Engineering, A 598 (2014) 376-386
Hejazi, The fracture and plastic deformation of aluminum alloyed Hadfield steels, Materials Science and Engineering, A 513-514 (2009) 72-76
Lee, Stacking fault energy and plastic deformation of fully austenitic high manganese steels: Effect of Al addition, Materials Science and Engineering, A 527 (2010) 3651-3661
Jiulin, Abrasion-resistant as-cast manganese steel with nodular carbide modified by calcium, Journal of Materials Science Letters, 9 (1990) 616-617
Wen, Thermodynamic calculation of stacking fault energy of the Fe– Mn– Si– C high manganese steels, Materials Science and Engineering, A 598 (2014) 376-386
Online since: February 2011
Authors: Jin Hua Jiang, Ze Xing Wang, Nan Liang Chen
Composites Science and Technology 68 (2008) 1822-1830
Journal of Thermoplastic Composite Materials 11 (1998) 22-56
International Conference on Advanced Textile Materials and Manufacturing Technology, Hangzhou, China (2008)
Journal of Composite Materials 35 (2001) 1150
Journal of Thermoplastic Composite Materials 13 (2000) 292-313.
Journal of Thermoplastic Composite Materials 11 (1998) 22-56
International Conference on Advanced Textile Materials and Manufacturing Technology, Hangzhou, China (2008)
Journal of Composite Materials 35 (2001) 1150
Journal of Thermoplastic Composite Materials 13 (2000) 292-313.
Online since: October 2014
Authors: Lv Zhang, Yao Chen, Wei Wei Liu
Hence, CNTs have generated considerable interest in their use as reinforcements in different materials [7-9].
Ruoff: Science, Vol. 61 (2000),p.1899
Kaneto: International Journal of Inorganic Materials, Vol. 1 (1999),p.77
Zakhidov and W.A. de Heer: Science, Vol.297 (2002),p787
Mukherjee: Nature Materials, Vol. 2 (2003),p.38
Ruoff: Science, Vol. 61 (2000),p.1899
Kaneto: International Journal of Inorganic Materials, Vol. 1 (1999),p.77
Zakhidov and W.A. de Heer: Science, Vol.297 (2002),p787
Mukherjee: Nature Materials, Vol. 2 (2003),p.38
Online since: May 2012
Authors: Zhao Yang Xu, Shao Jin Wan, Yao Ren Ma
J.L.Day, Ramakrishnan and S.L Vemuri[3] have done the study of Calcium Carbonate crystal filling polyurethane materials of microbial metabolism which can improve its compressive strength and its elastic modulus.
American Concrete Institute Materials Journal, 2001, 98: 3-9
Journal of Biotechnology, 2002, 93:171-181 [5] Lappin-Scott, H.M., Cusack.
Journal of Guangxi university (natural science edition), 2004, 29 (3) : 197-200 [12]Ruixing Wang,Chunxiang Qian etc.In Chinese.
Journal of southeast university (natural science edition). 2005, 35 (supplement I) : 191-195 [13]Yangong Cui , Xianqing Huang .In Chinese.
American Concrete Institute Materials Journal, 2001, 98: 3-9
Journal of Biotechnology, 2002, 93:171-181 [5] Lappin-Scott, H.M., Cusack.
Journal of Guangxi university (natural science edition), 2004, 29 (3) : 197-200 [12]Ruixing Wang,Chunxiang Qian etc.In Chinese.
Journal of southeast university (natural science edition). 2005, 35 (supplement I) : 191-195 [13]Yangong Cui , Xianqing Huang .In Chinese.
Online since: November 2014
Authors: Qing Tai Xi, Xing Rong Xiong, Zheng Hao Wang, Xing Tao Yang, Qing Xin Meng
Material force model is shown in Fig. 2.
Wang: Chinese Journal of Construction Machinery, vol. 5 (2007) No.1, p.113
Ferraris: Journal of Research of the National Institute of Standards and Technology, vol.106(2001) No.2, p.391
Ferraris: Construction and Building Materials, vol.43 (2013), p.107
Zhang: Journal of Fudan University( Natural Science), vol.39 (2000) No.1, p.94.
Wang: Chinese Journal of Construction Machinery, vol. 5 (2007) No.1, p.113
Ferraris: Journal of Research of the National Institute of Standards and Technology, vol.106(2001) No.2, p.391
Ferraris: Construction and Building Materials, vol.43 (2013), p.107
Zhang: Journal of Fudan University( Natural Science), vol.39 (2000) No.1, p.94.
Online since: October 2013
Authors: Yu Tao Ju, Qing Chun Zhou, Zhen Wei
Teo: International journal of adhesion and adhesives.
Osiyemi: Journal of Materials Science Letters.
Williams: Journal of Composite Materials.
Zavattieri: Composites Science and Technology.
Needleman:Modelling and Simulation in Materials Science and Engineering.
Osiyemi: Journal of Materials Science Letters.
Williams: Journal of Composite Materials.
Zavattieri: Composites Science and Technology.
Needleman:Modelling and Simulation in Materials Science and Engineering.
Online since: July 2014
Authors: Tao Chen, Xiao Ting Wang, Kai Li, Su Yan Li, Tao Liu
International Journal of Advanced Manufacturing Technology. 54 (2011) 887-898
International Journal of Material Forming. 3 (2010) 515-518
Journal of Materials Processing Mechanical Technology. 62 (1996) 448~453 [5] S.
International Journal of Material Forming. 3 (2010) 431-434
Heilongjiang: Harbin University of Science and Technology, (2009).
International Journal of Material Forming. 3 (2010) 515-518
Journal of Materials Processing Mechanical Technology. 62 (1996) 448~453 [5] S.
International Journal of Material Forming. 3 (2010) 431-434
Heilongjiang: Harbin University of Science and Technology, (2009).
Online since: October 2010
Authors: Li Li, Zhi Min Zhang, Li Hui Lang, Yong Xue
Influence of Aging on Microstructure and Mechanical Properties of Wrought Magnesium Alloys
Yong Xue 1, a, Zhimin Zhang 1, b, Lihui Lang 2, c, Hui Yang 1, d
1 North University of China, School of Material Science and Engineering, 030051 Taiyuan, China
2 Beihang University, School of Mechanical Engineering and Automation, 100191 Beijing, China
amerryjukii@hotmail.com, bzhangzhimini@nuc.edu.cn, cforge54@163.com, dping8191@sohu.com
Keywords: aging, microstructure, mechanical properties, AZ80 magnesium alloy, ZK60 magnesium alloy
Abstract.
Experimental materials and methods Mg-8.9wt%Al-0.53wt%Zn alloy and Mg-(5.0-6.0) wt%Zn-(0.3-0.9) wt%Zr alloy ingots with an outer diameter of 300mm are adopted as the materials for experiment.
Firstly, intercept along the axial direction from the ingot a piece of slab with a thickness of 15mm as sample material.
Acknowledgements The present research is sponsored by National Natural Foundation of China (No.50735005, No.50605059), Shanxi Provincial Science Foundation for Youths of China (No.2007021026), and Development for Science and Technology in Higher Educational Institutes (No. 20081027).
References [1] B.L.Mordike, T.Ebert: Materials Science and Engineering, Vol.A302 (2001), p.37 [2] E.Aghion, B.Bronfin: Materials Science Forum, Vol.350-351 (2000), p.19 [3] I.M.Baghni, Y.S.Wu, and J.Q.Li et al.: The Chinese Transactions of Nonferrous Metals Society, Vol.13 (2003), p.1253 [4] T.Mukai, M.Yamanoi, and H.Watanabe et al.: Scripta Materialia, Vol.45 (2001), p.89 [5] H.Somekawa, T.Mukai: Scripta Materialia, Vol.54 (2006), p.633 [6] P.W.Song, X.T.Jing, X.F.Guo: The Chinese Journal of Nonferrous Metals, Vol.17 (2007), p.111 [7] N.Balasubramani, A.Srinivasan, S.Pillaiut: Materials Science and Engineering A, Vol.457 (2007), p.275 [8] J.Wang, J.Meng, and D.P.Zhang et al.: Materials Science and Engineering A, Vol.456 (2007), p.78 G.Y.Yuan, [9] Y.S.Sun, and X.Q.Zeng et al.: The Chinese Journal of Shanghai Jiaotong University, Vol.35 (2001), p.451 [10] J.M.Zhang, B.L.Jiang, Z.H.Wang: The Chinese Journal of Hot Working Technology, Vol.35 (2006), p.65 [11] S.Celotto: Acta Metal
Experimental materials and methods Mg-8.9wt%Al-0.53wt%Zn alloy and Mg-(5.0-6.0) wt%Zn-(0.3-0.9) wt%Zr alloy ingots with an outer diameter of 300mm are adopted as the materials for experiment.
Firstly, intercept along the axial direction from the ingot a piece of slab with a thickness of 15mm as sample material.
Acknowledgements The present research is sponsored by National Natural Foundation of China (No.50735005, No.50605059), Shanxi Provincial Science Foundation for Youths of China (No.2007021026), and Development for Science and Technology in Higher Educational Institutes (No. 20081027).
References [1] B.L.Mordike, T.Ebert: Materials Science and Engineering, Vol.A302 (2001), p.37 [2] E.Aghion, B.Bronfin: Materials Science Forum, Vol.350-351 (2000), p.19 [3] I.M.Baghni, Y.S.Wu, and J.Q.Li et al.: The Chinese Transactions of Nonferrous Metals Society, Vol.13 (2003), p.1253 [4] T.Mukai, M.Yamanoi, and H.Watanabe et al.: Scripta Materialia, Vol.45 (2001), p.89 [5] H.Somekawa, T.Mukai: Scripta Materialia, Vol.54 (2006), p.633 [6] P.W.Song, X.T.Jing, X.F.Guo: The Chinese Journal of Nonferrous Metals, Vol.17 (2007), p.111 [7] N.Balasubramani, A.Srinivasan, S.Pillaiut: Materials Science and Engineering A, Vol.457 (2007), p.275 [8] J.Wang, J.Meng, and D.P.Zhang et al.: Materials Science and Engineering A, Vol.456 (2007), p.78 G.Y.Yuan, [9] Y.S.Sun, and X.Q.Zeng et al.: The Chinese Journal of Shanghai Jiaotong University, Vol.35 (2001), p.451 [10] J.M.Zhang, B.L.Jiang, Z.H.Wang: The Chinese Journal of Hot Working Technology, Vol.35 (2006), p.65 [11] S.Celotto: Acta Metal
Online since: September 2013
Authors: Agus Sigit Pramono, Bambang Pramujati, Susila Candra, I Made Londen Batan
Therefore, investigating various materials having different material properties as well as dimensions would be very difficult and expensive.
References [1] Benny Endelt, Soren Tommerup, Joachim Danckert, A novel feedback control system- Controlling the material flow in deep drawing using distributed blank-holder force, Journal of Materials Processing Technology, 2013
Gavas, “Deep drawing with anti-lock braking system (ABS)”, Journal Mechanism and Machine Theory 41, 2006
[4] Muammer Gavas, “Increasing the drawing height of conical square cups using anti-lock braking system (ABS)”, Journal of Mechanical Science and Technology 23 page3079~3087, 2009
[5] Susila Candra, I Made Londen Batan, Experimental Study and Analysis of the Influence of Drawbead against Restriction and Deep Drawing Force of Rectangular Cup-Cans with Tin Plate Material, 3rd International Conference on Mechanical and Manufacturing Engineering 2012, (ICME2012) UTHM Malaysia, and published online, in Journal of Applied Mechanics and Materials Vol.315 pp 246-251, Trans Tech Publications, Switzerland, doi:10.4028/www.scientific.net/ AMM.315.246, 2013
References [1] Benny Endelt, Soren Tommerup, Joachim Danckert, A novel feedback control system- Controlling the material flow in deep drawing using distributed blank-holder force, Journal of Materials Processing Technology, 2013
Gavas, “Deep drawing with anti-lock braking system (ABS)”, Journal Mechanism and Machine Theory 41, 2006
[4] Muammer Gavas, “Increasing the drawing height of conical square cups using anti-lock braking system (ABS)”, Journal of Mechanical Science and Technology 23 page3079~3087, 2009
[5] Susila Candra, I Made Londen Batan, Experimental Study and Analysis of the Influence of Drawbead against Restriction and Deep Drawing Force of Rectangular Cup-Cans with Tin Plate Material, 3rd International Conference on Mechanical and Manufacturing Engineering 2012, (ICME2012) UTHM Malaysia, and published online, in Journal of Applied Mechanics and Materials Vol.315 pp 246-251, Trans Tech Publications, Switzerland, doi:10.4028/www.scientific.net/ AMM.315.246, 2013