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Online since: June 2015
Authors: K.S. Sridhar Raja, V.K. Bupesh Raja, S.N. Ramana Rao, K.R. Vignesh
However, the properties of this material can be improved by using aluminium matrix composite materials.
ZrO Nanoparticles through Stir Casting, Advances in Materials Physics and Chemistry. 1 (2011) 26-30
[10] V K Bupesh Raja, S Prabhu, Processing of Cellular Materials – An Overview, International Conference on Advanced Nanomaterials and Emerging Engineering Technologies (2013) 631 – 633
[11] Annual Book of ASTM Standards, American Society for Testing and Materials (ASTM) (1994)
[12] H.Shueiwan.Juang and Shyh-Ming Wu, Study on Mechanical Properties of A356 Alloys Enhanced With Preformed Thixotropic Structure, Journal of Marine Science and Technology. 16, (2008) 4 271-274.
ZrO Nanoparticles through Stir Casting, Advances in Materials Physics and Chemistry. 1 (2011) 26-30
[10] V K Bupesh Raja, S Prabhu, Processing of Cellular Materials – An Overview, International Conference on Advanced Nanomaterials and Emerging Engineering Technologies (2013) 631 – 633
[11] Annual Book of ASTM Standards, American Society for Testing and Materials (ASTM) (1994)
[12] H.Shueiwan.Juang and Shyh-Ming Wu, Study on Mechanical Properties of A356 Alloys Enhanced With Preformed Thixotropic Structure, Journal of Marine Science and Technology. 16, (2008) 4 271-274.
Online since: November 2014
Authors: Diego Mantovani, J.M. Almanza-Robles, P. Chevallier, D.A. Cortés-Hernández, A.M. Escamilla-Pérez
Lyer, Journal of Magnetism and Magnetic Materials, 2011; 323: 1404-1407
Li, Applied Surface Science, 2006; 253: 2158-2164
Sun, Advanced Materials, 2010; 22: 2729–2742
Ibrahim, Journal of Magnetism and Magnetic Materials, 2008; 320: 1615-1621
Ningthoujam, Journal of Materials Chemistry, 2011; 21: 13388–13398.
Li, Applied Surface Science, 2006; 253: 2158-2164
Sun, Advanced Materials, 2010; 22: 2729–2742
Ibrahim, Journal of Magnetism and Magnetic Materials, 2008; 320: 1615-1621
Ningthoujam, Journal of Materials Chemistry, 2011; 21: 13388–13398.
Online since: August 2014
Authors: Zhi Min Zhang, Yong Xue, Bao Cheng Li, Guang Lu
A Study on the Phenomenological Constitutive Model of Mg-12Gd-5Y-3Zn-0.6Zr Magnesium Alloy Forming at Elevated Temperature
Guang Lu 1, a, Zhimin Zhang 1,b , Yong Xue1,c , Baocheng Li1,d
1 North University of China, School of Material Science and Engineering, 030051 Taiyuan, China,
axzp135464@sina.com, bforgexzp@163.com, cforgezzm@sina.com, d forgexy@sina.com
Keywords: Mg-Gd-Y-Zn-Zr magnesium alloy, constitutive model, processing map, dynamic recrystallization, strain softening
Abstract.
Magnesium alloy is the lightest mental material available for industrial application now, and has many good mechanical properties, such as high specific strength, excellent performance on vibration damping and electromagnetic shielding, and high specific stiffness, etc.
Experimental materials and methods Mg-12wt%Gd-5wt%Y-3wt%Zn-0.6wt%Zr alloy ingots are adopted as the materials for experiment.
Acknowledgements The present research is supported by the Natural Science Foundation of Shanxi Province, China (Grant No.2013011022-5, 2012011022-2), and Natural Science Foundation of North University of China.
References [1] Y.V.R.K.Prasad: Indian Journal of Technology, Vol. 28(1990), p.435 [2] Y.V.R.K.Prasad, T.Seshacharyulu: International Materials Reviews, Vol.43 (1998), p.243 [3] H.L.Gegel: Computer Simulation in Materials Science.OH: ASM, (1986), p.291 [4] S.Spigarelli, M.Mehtedi, M.Cabibbo, et al: Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, Vol.462 (2007), p.197 [5] H.Takuda, T.Morishita, T.Kinoshita: Journal of Materials Processing Technology, 2005, Vol.164-165(2005), p.1258 [6] Y.Kojima, T.Aizawa, K.Higashi, S.Kamado: Materials Science Forum, 2003, Vol. 419-422 (2003), p.249 [7] C.M.Sellars: Materials Science and Technology, 1985, Vol.1 (1985), p.325 [8] HO LEE, B., REDDY, N.S., YEOM, J.T., SOO LEE, CH: Journal of Materials Processing Technology, Vol.187-188(2007), p.766 [9] Liu J, Cui ZS, Li CX. : Computational Materials Science, Vol.41 (2008), p.375
Magnesium alloy is the lightest mental material available for industrial application now, and has many good mechanical properties, such as high specific strength, excellent performance on vibration damping and electromagnetic shielding, and high specific stiffness, etc.
Experimental materials and methods Mg-12wt%Gd-5wt%Y-3wt%Zn-0.6wt%Zr alloy ingots are adopted as the materials for experiment.
Acknowledgements The present research is supported by the Natural Science Foundation of Shanxi Province, China (Grant No.2013011022-5, 2012011022-2), and Natural Science Foundation of North University of China.
References [1] Y.V.R.K.Prasad: Indian Journal of Technology, Vol. 28(1990), p.435 [2] Y.V.R.K.Prasad, T.Seshacharyulu: International Materials Reviews, Vol.43 (1998), p.243 [3] H.L.Gegel: Computer Simulation in Materials Science.OH: ASM, (1986), p.291 [4] S.Spigarelli, M.Mehtedi, M.Cabibbo, et al: Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, Vol.462 (2007), p.197 [5] H.Takuda, T.Morishita, T.Kinoshita: Journal of Materials Processing Technology, 2005, Vol.164-165(2005), p.1258 [6] Y.Kojima, T.Aizawa, K.Higashi, S.Kamado: Materials Science Forum, 2003, Vol. 419-422 (2003), p.249 [7] C.M.Sellars: Materials Science and Technology, 1985, Vol.1 (1985), p.325 [8] HO LEE, B., REDDY, N.S., YEOM, J.T., SOO LEE, CH: Journal of Materials Processing Technology, Vol.187-188(2007), p.766 [9] Liu J, Cui ZS, Li CX. : Computational Materials Science, Vol.41 (2008), p.375
Online since: August 2014
Authors: Michael L. Steinzig, Michael B. Prime
Oliver, Residual stress in a thick section high strength T-butt weld, Materials Science & Engineering: A, 480 (2008) 411-418.
,[] A.
Withers, Residual stress field in a friction stir welded aluminium extrusion, Materials Science Forum, 347-349 (2000) 678-683. ] or laboratory x-rays [[] E.J.
Smith, Residual stress measurement within a European UIC60 rail using integrated drilling techniques, Materials Science Forum, 440-441 (2003) 85-92. ,[] D.
Mills, A comparison of MAPS and synchrotron X-ray methods: stresses measured in railway rail sections, Materials Science Forum, 404-407 (2002) 881-886. ,[] P.J.
Vaughan, Synchrotron X-ray measurements of residual stress in a worn railway rail, Materials Science Forum, 404-407 (2002) 767-772. ,[] T.S.
Withers, Residual stress field in a friction stir welded aluminium extrusion, Materials Science Forum, 347-349 (2000) 678-683. ] or laboratory x-rays [[] E.J.
Smith, Residual stress measurement within a European UIC60 rail using integrated drilling techniques, Materials Science Forum, 440-441 (2003) 85-92. ,[] D.
Mills, A comparison of MAPS and synchrotron X-ray methods: stresses measured in railway rail sections, Materials Science Forum, 404-407 (2002) 881-886. ,[] P.J.
Vaughan, Synchrotron X-ray measurements of residual stress in a worn railway rail, Materials Science Forum, 404-407 (2002) 767-772. ,[] T.S.
Online since: September 2013
Authors: J.X. Xue, L.L. An, Q.P. Sun
Swain: Journal of Materials Science 10(1)(1975)113–122
[3] S.
Waida: Journal of Materials Processing Technology. 48(1-4)(1995) 267–274 [11] Information on http://www.winterthurusa.net [12] C.
Cai: Key Engineering Materials. 259-260(2004) 244–248 [20] Z.B.
Holl: Journal of Materials Processing Technology. 62(4)(1996) 287–293 [25] R.
Takahashi: Journal of Materials Processing Technology. 66(1-3)(1997)18–24 [29] Y.
Waida: Journal of Materials Processing Technology. 48(1-4)(1995) 267–274 [11] Information on http://www.winterthurusa.net [12] C.
Cai: Key Engineering Materials. 259-260(2004) 244–248 [20] Z.B.
Holl: Journal of Materials Processing Technology. 62(4)(1996) 287–293 [25] R.
Takahashi: Journal of Materials Processing Technology. 66(1-3)(1997)18–24 [29] Y.
Online since: November 2012
Authors: Xiao Qing Yu, Mao Lin, Na Wei, Li Jia, Jing Xiao
Analysis of fragmentation of glass target with composite
properties of materials under impact loading
Xiaoqing Yu1, a Mao Lin2,b Na Wei3,c Li Jia4,d Jing Xiao5,e
1,2,3,4,5 Air Force logistical College XuZhou JiangSu China
a,b,c,d,e 20423325@qq.com
Keyword:glass;fragmentation;cone angle;crackle
Abstract: Glass target belongs to brittle target.In order to make use of PVC to enhance defensible performance of glass, combining glass and PVC for a target is considered in this paper.
Introduction The brittleness broken is an important failure modes for various materials or structures.In the quasi-static loads, these broke not only with external conditions (such as mechanical loads, thermal loads, etc.), but also with the initial micro defects of material, non-uniformity, etc. related to the fine structure.Impact loads, its broken form often associated with the role of dynamic load type (such as impact velocity, inertia force effects, etc.) have a more direct relationship.In this paper, based on the shells hit experiments,PVC composite membrane solid role is used, analysis of the glass / PVC layer plywood, glass panels in the shells hit the broken pattern found broken laminated plate glass panel of two superimposed cone,and extract the failure characteristics, draw some important data, and to provide a reference for the analysis of glass breaking. 1 A bomb strike experiment Experimental specimen together by an ordinary boring flat brittle and a flexible layer of
Concrete material impact damage characteristics.Science in China [J].2009(9) [2]Ge Jie,Li Guoqiang.
Structural Engineer[J].2010(26-4) [3]Zhao Wen,Liang Lei,Zhang Fengchun,Li Yi.Stress Analysis of Concrete Under Impact Loading.Journal of Northeastern University.2008(29-5) [4]Zhou Fenghua,Wang Yonggang.Fators controlling sizes of brittle fragments due to impact loadings.
Journal of Wuhan University.2010(43-1)
Introduction The brittleness broken is an important failure modes for various materials or structures.In the quasi-static loads, these broke not only with external conditions (such as mechanical loads, thermal loads, etc.), but also with the initial micro defects of material, non-uniformity, etc. related to the fine structure.Impact loads, its broken form often associated with the role of dynamic load type (such as impact velocity, inertia force effects, etc.) have a more direct relationship.In this paper, based on the shells hit experiments,PVC composite membrane solid role is used, analysis of the glass / PVC layer plywood, glass panels in the shells hit the broken pattern found broken laminated plate glass panel of two superimposed cone,and extract the failure characteristics, draw some important data, and to provide a reference for the analysis of glass breaking. 1 A bomb strike experiment Experimental specimen together by an ordinary boring flat brittle and a flexible layer of
Concrete material impact damage characteristics.Science in China [J].2009(9) [2]Ge Jie,Li Guoqiang.
Structural Engineer[J].2010(26-4) [3]Zhao Wen,Liang Lei,Zhang Fengchun,Li Yi.Stress Analysis of Concrete Under Impact Loading.Journal of Northeastern University.2008(29-5) [4]Zhou Fenghua,Wang Yonggang.Fators controlling sizes of brittle fragments due to impact loadings.
Journal of Wuhan University.2010(43-1)
Online since: October 2024
Authors: Sergiu Valentin Galatanu, Matei Marin-Corciu, Nicolae Trihenea, Nicuşor Alin Sîrbu, Aurelia Ioana Biholar
Smart Materials and Structures, 2023, 32.4: 044004
Journal of Fluid Mechanics, 2022, 951: A40
Journal of Composite Materials, 2020, 54.24: 3515-3526
Materials & Design, 2022, 213: 110375
Journal of Computational Physics, 1990, 87.2: 464-487.
Journal of Fluid Mechanics, 2022, 951: A40
Journal of Composite Materials, 2020, 54.24: 3515-3526
Materials & Design, 2022, 213: 110375
Journal of Computational Physics, 1990, 87.2: 464-487.
Online since: June 2014
Authors: Lei Chen, Yi Lin She
Most of the research results have shown that biochar significantly decrease N2O emissions, but the effect is dependent on feedstock materials, adding rates and soils [1].
Science in China.
Journal of Geophysical Research, 2008. 113: G02027
Journal of Environmental Quality, 2012. 41(4): 1193-202
Journal of Agro-Environment Science, 2011. 30(4):812~816
Science in China.
Journal of Geophysical Research, 2008. 113: G02027
Journal of Environmental Quality, 2012. 41(4): 1193-202
Journal of Agro-Environment Science, 2011. 30(4):812~816
Online since: August 2013
Authors: Ping Chen, Lian Bao Kan, Chao Jia
References
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[2] Jorge José, Regina de Fátima Peralta Muniz Moreira: Journal of Hazardous Materials Vol.135 (2006), p. 274–279
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Gierycz: Journal of Hazardous Materials Vol.186 (2011) , p. 288–292 [8] R.
Espindola, Paulo Olivi: Journal of Hazardous Materials Vol.153 (2008) , p. 616 –627 [13] Jing-wei FENG, Ya-bing SUN, Zheng ZHENG, Ji-biao ZHANG, Shu LI, Yuan-chun TIAN: Journal of Environmental Sciences Vol.19 (2007) , p. 1409–1415 [14] Sajjad Haydar, Javed Anwar Aziz: Journal of Hazardous Materials Vol.168 (2009), p.1035–1040 [15] S.G.
Schröder: Chemosphere Vol.56(2004), p. 411–423 [16] Sirajuddin, Lutfullah Kakakhel, Ghosia Lutfullah, Muhammad Iqbal Bhanger, Afzal Shah, Abdul Niaz: Journal of Hazardous Materials Vol.148 (2007) , p.560–565 [17] Ugur Kurt, Omer Apaydin, M.
Talha Gonullu: Journal of Hazardous Materials Vol.143 (2007), p.33–40 [18] Sajjad Haydar, Javed Anwar Aziz: Journal of Hazardous Materials Vol.163(2009) , p.1076–1083 [19] Lidia Szpyrkowicz, Santosh N.
Gierycz: Journal of Hazardous Materials Vol.186 (2011) , p. 288–292 [8] R.
Espindola, Paulo Olivi: Journal of Hazardous Materials Vol.153 (2008) , p. 616 –627 [13] Jing-wei FENG, Ya-bing SUN, Zheng ZHENG, Ji-biao ZHANG, Shu LI, Yuan-chun TIAN: Journal of Environmental Sciences Vol.19 (2007) , p. 1409–1415 [14] Sajjad Haydar, Javed Anwar Aziz: Journal of Hazardous Materials Vol.168 (2009), p.1035–1040 [15] S.G.
Schröder: Chemosphere Vol.56(2004), p. 411–423 [16] Sirajuddin, Lutfullah Kakakhel, Ghosia Lutfullah, Muhammad Iqbal Bhanger, Afzal Shah, Abdul Niaz: Journal of Hazardous Materials Vol.148 (2007) , p.560–565 [17] Ugur Kurt, Omer Apaydin, M.
Talha Gonullu: Journal of Hazardous Materials Vol.143 (2007), p.33–40 [18] Sajjad Haydar, Javed Anwar Aziz: Journal of Hazardous Materials Vol.163(2009) , p.1076–1083 [19] Lidia Szpyrkowicz, Santosh N.
Online since: September 2015
Authors: G. Kumaresan, B. Arul Kumar
Introduction
The abrasive water jet machine is an effective technology for processing various materials.
From the literature survey, it is observed that many works has been reported on waterjet machining process on the materials like aluminum, Grey cast iron, kevlar reinforced phenolic composite, EN 8, and acrylic but researches on AWJM of mild Metal Matrix composites is very few.
References [1].LeeladharNagdeve, VedanshChaturvedi, Jyot Vimal(2012), Parametric optimization of abrasive waterjet machining using Taguchi methodology; International Journal ofresearch in engineering andapplied science (IJRES),vol 2, issue 6,ISSN 2249 3905
International Journal of Instrumentation, Control and Automation IJICA, ISSN: 2231-1890, Vol-1 Iss-3, 4, 2012
Mohanasundararaju(2012), Analysis of surface roughness in abrasive waterjet cutting of cast iron; International journal of science, environmentand technology, vol. 1, no 3, 2012, 174 – 182
From the literature survey, it is observed that many works has been reported on waterjet machining process on the materials like aluminum, Grey cast iron, kevlar reinforced phenolic composite, EN 8, and acrylic but researches on AWJM of mild Metal Matrix composites is very few.
References [1].LeeladharNagdeve, VedanshChaturvedi, Jyot Vimal(2012), Parametric optimization of abrasive waterjet machining using Taguchi methodology; International Journal ofresearch in engineering andapplied science (IJRES),vol 2, issue 6,ISSN 2249 3905
International Journal of Instrumentation, Control and Automation IJICA, ISSN: 2231-1890, Vol-1 Iss-3, 4, 2012
Mohanasundararaju(2012), Analysis of surface roughness in abrasive waterjet cutting of cast iron; International journal of science, environmentand technology, vol. 1, no 3, 2012, 174 – 182