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Online since: September 2018
Authors: Artem V. Levchenko, Aleksei E. Polikutin, Yuri B. Potapov
Barabash, Effective sealing material on the basis of modified rubber, Building materials. 4 (2008) 71-75
PhD of tech. sciences: 05.23.01, Voronezh, 2010
PhD of tech. sciences, Voronezh, 2001
Potapov, High-performance composites based on liquid rubbers, in: Materials of international scientific-technical conference (IV Academic reading RAASN) "Actual problems of construction material science": collection of scientific works, Penza, 1998, pp.16-17
Potapov, Rubcon – a new class of corrosion resistant construction materials, Building materials of the XXI century. 9 (2000) 9-10
PhD of tech. sciences: 05.23.01, Voronezh, 2010
PhD of tech. sciences, Voronezh, 2001
Potapov, High-performance composites based on liquid rubbers, in: Materials of international scientific-technical conference (IV Academic reading RAASN) "Actual problems of construction material science": collection of scientific works, Penza, 1998, pp.16-17
Potapov, Rubcon – a new class of corrosion resistant construction materials, Building materials of the XXI century. 9 (2000) 9-10
Online since: December 2014
Authors: Yong Hong Liu, Yang Shen, Hang Dong, Ren Jie Ji
The re-solidified materials are significantly more densely than base materials.
(4) The re-solidified materials are significantly more densely than base materials.
IOP Conference Series: Materials Science and Engineering [C].
International Journal of Machining and Machinability of Materials, 2013 13 (1) 1-16
Journal of Materials Processing Technology, 2014 214 531-538
(4) The re-solidified materials are significantly more densely than base materials.
IOP Conference Series: Materials Science and Engineering [C].
International Journal of Machining and Machinability of Materials, 2013 13 (1) 1-16
Journal of Materials Processing Technology, 2014 214 531-538
Online since: November 2012
Authors: Ferri M.H.Aliabadi, Omar Bacarreza, Daisei Abe
Chou, "Elastic behavior of woven hybrid composites," Journal of Composite Materials, vol. 16, pp. 2-19, 1982
Whitcomb, "Global/local finite element analysis for textile composites," Journal of Composite Materials, vol. 28, pp. 1305-1321, 1994
Whitcomb, "Effect of assumed tow architecture on predicted moduli and stresses in plain weave composites," Journal of Composite Materials, vol. 29, pp. 2134-2159, 1995
Bogdanovich, "Multi-scale modeling, stress and failure analyses of 3-D woven composites," Journal of Materials Science, vol. 41, pp. 6547-6590, 2006
Kim, "Dynamic direct numerical simulation of woven composites for low-velocity impact," Journal of Composite Materials, vol. 41, pp. 175-200, 2007
Whitcomb, "Global/local finite element analysis for textile composites," Journal of Composite Materials, vol. 28, pp. 1305-1321, 1994
Whitcomb, "Effect of assumed tow architecture on predicted moduli and stresses in plain weave composites," Journal of Composite Materials, vol. 29, pp. 2134-2159, 1995
Bogdanovich, "Multi-scale modeling, stress and failure analyses of 3-D woven composites," Journal of Materials Science, vol. 41, pp. 6547-6590, 2006
Kim, "Dynamic direct numerical simulation of woven composites for low-velocity impact," Journal of Composite Materials, vol. 41, pp. 175-200, 2007
Online since: January 2013
Authors: Yao Gang Jiang, Fu Qiang Shi, Zhao Wu Shen, Xue Yan Liao, Zhi Gang Gong
The results showed that the loose and pre-compression powder were viscous material.
Fire Safety Journal, 2009, (44): 968-975
Journal of Materials Processing Technology. 2011, 108:165-178
International Journal of Multiphase Flow. 2001,(27):617-634
Lunar and Planetary Science. 2007.
Fire Safety Journal, 2009, (44): 968-975
Journal of Materials Processing Technology. 2011, 108:165-178
International Journal of Multiphase Flow. 2001,(27):617-634
Lunar and Planetary Science. 2007.
Online since: January 2013
Authors: Zhi Min Zhang, Yong Xue, Yao Jin Wu
Experimental materials and methods
Mg-8.9wt%Al-0.53wt%Zn alloy ingots were adopted as the materials for experiment.
By comparing C with Cmax, the risk of material failure during processing is assessed.
According to the dynamic material model, D equals to covariate J.
Acknowledgements The present research is supported by the National Natural Science Foundation of China (Grant No. 50735005, No.50605059), Natural Science Foundation for Young Scientists of Shanxi Province, China (Grant No.2007021026), and Natural Science Foundation of North University of China.
References [1] R.Sowerby and N.Chandrasekaran: Materials Science and Engineering Vol.79 (1986), p.27 [2] C.Dorum, O.S.Hopperstad, T.Bersliad: Engineering Fracture Mechanics Vol.76 (2009), p.2232 [3] D.C.Ko, B.Y .Kim, J.C.Choi: Journal of Materials Processing Technology Vol.62 (1996), p.166 [4] M.Pereira, G.Rubim O.Acselrad: Journal of Materials Processing Technology Vol.203 (2008), p.13 [5] Y.V.R.K.Prasad: Indian Journal of Technology Vol.28 (1990), p.435 [6] Y.V.R.K.Prasad, T.Seshacharyulu: International Materials Reviews Vol.43 (1998), p.243 [7] H.L.Gegel: Computer Simulation in Materials Science.OH: ASM 1986, p.91 [8] Y.Kojima, T.Aizawa, K.Higashi, S.Kamado: Materials Science Forum Vol.419 -422(2003), p.249 [9] S.I.Oh, C.C.Chen, S.Kobayashi S: Journal of Engineering for Industry, Transaction of the ASME Vol.101 (1979), p.23 [10] A.G.Atkins: Metal Science Vol. 15(1981), p.81 [11] V.Vujovic and A.H.Shabaik: Journal of Engineering materials and Technology, Transactions of the
By comparing C with Cmax, the risk of material failure during processing is assessed.
According to the dynamic material model, D equals to covariate J.
Acknowledgements The present research is supported by the National Natural Science Foundation of China (Grant No. 50735005, No.50605059), Natural Science Foundation for Young Scientists of Shanxi Province, China (Grant No.2007021026), and Natural Science Foundation of North University of China.
References [1] R.Sowerby and N.Chandrasekaran: Materials Science and Engineering Vol.79 (1986), p.27 [2] C.Dorum, O.S.Hopperstad, T.Bersliad: Engineering Fracture Mechanics Vol.76 (2009), p.2232 [3] D.C.Ko, B.Y .Kim, J.C.Choi: Journal of Materials Processing Technology Vol.62 (1996), p.166 [4] M.Pereira, G.Rubim O.Acselrad: Journal of Materials Processing Technology Vol.203 (2008), p.13 [5] Y.V.R.K.Prasad: Indian Journal of Technology Vol.28 (1990), p.435 [6] Y.V.R.K.Prasad, T.Seshacharyulu: International Materials Reviews Vol.43 (1998), p.243 [7] H.L.Gegel: Computer Simulation in Materials Science.OH: ASM 1986, p.91 [8] Y.Kojima, T.Aizawa, K.Higashi, S.Kamado: Materials Science Forum Vol.419 -422(2003), p.249 [9] S.I.Oh, C.C.Chen, S.Kobayashi S: Journal of Engineering for Industry, Transaction of the ASME Vol.101 (1979), p.23 [10] A.G.Atkins: Metal Science Vol. 15(1981), p.81 [11] V.Vujovic and A.H.Shabaik: Journal of Engineering materials and Technology, Transactions of the
Online since: June 2014
Authors: Zakaria Man, Nurlidia Mansor, Anis Shuib, Zahid Majeed, Nur Kamila Ramli
This study was done to investigates the usage of natural products as one of the materials in fertilizer application.
Methodology Materials.
Natural products as corrosion inhibitor for metals in corrosive media — A review.Materials Letters 62, 113–116. doi:10.1016/j.matlet.2007.04.079
Journal of Zhejiang University SCIENCE B.
Univ SCIENCE B 2006 7(6):429-435 [14] Parsons, T.
Methodology Materials.
Natural products as corrosion inhibitor for metals in corrosive media — A review.Materials Letters 62, 113–116. doi:10.1016/j.matlet.2007.04.079
Journal of Zhejiang University SCIENCE B.
Univ SCIENCE B 2006 7(6):429-435 [14] Parsons, T.
The Research on Preparation Methods of Sludge-Based Adsorbent and its Application in Water Treatment
Online since: September 2013
Authors: Kun Huang, Bing Xin Du
The wide use of chemical activators that show dehydration, etching effect towards raw materials, include KOH, H2SO4, ZnCl2, NaOH, etc.
First, treat raw materials with chemical immersion treatment, and then with the gas physical activation.
Jin, et al.: Chinese Journal of Environmental Engineering.
Parra, et al.: Chemical Engineering Journal Vol.114 (2005), p.161-169
Bandosz: Journal of Colloid and Interface Science Vol. 302 (2006), p. 379-388
First, treat raw materials with chemical immersion treatment, and then with the gas physical activation.
Jin, et al.: Chinese Journal of Environmental Engineering.
Parra, et al.: Chemical Engineering Journal Vol.114 (2005), p.161-169
Bandosz: Journal of Colloid and Interface Science Vol. 302 (2006), p. 379-388
Online since: November 2012
Authors: Huan Huan Su, Bo Yang, Chang Qing Gao, Er Hu Zhang
Cognitive science is an interdisciplinary research emerging science of nature and law of the mind and intelligence.
Therefore, cognitive science is the emerging science of nature and law of the mind and intelligence for interdisciplinary research.
The designer only with effective suppression mechanism can have a choice in the reading process in information processing to help them correct understanding of the content of the material.
References [1] Ma Guanglin, Li Yan, Zhao Wu: Journal of mechanical design,2006,23(7):p.5-9(In Chinese)
Journal of Experimental Psychology: Learning, Memory, and Cognition, 2002, 28: p.411-421
Therefore, cognitive science is the emerging science of nature and law of the mind and intelligence for interdisciplinary research.
The designer only with effective suppression mechanism can have a choice in the reading process in information processing to help them correct understanding of the content of the material.
References [1] Ma Guanglin, Li Yan, Zhao Wu: Journal of mechanical design,2006,23(7):p.5-9(In Chinese)
Journal of Experimental Psychology: Learning, Memory, and Cognition, 2002, 28: p.411-421
Online since: May 2011
Authors: Xiao Tao Gong, Xiao Bing Yang, Jie Zhou, Wu Jiao Xu
Journal of Manufacturing Process.2002.(4)97~ 108
[5] Z.J.Szabo.
E.DittrichJournal of Materials Processing Technology.1996(60):67~72 [6] T.F.Stanistreet.J.M.Allwood.
Journal of Materials Processing Technology. 1996(60): 67~72 [7] Hiroshi Utsunomiya, Yoshihiro Saito.
Journal of Materials Processing Technology.2006.(177)630~633 [8] Guo Liang-gang, Yang He.
Journal of Materials Processing Technology. 2002:619~625 [10] Hua Lin.
E.DittrichJournal of Materials Processing Technology.1996(60):67~72 [6] T.F.Stanistreet.J.M.Allwood.
Journal of Materials Processing Technology. 1996(60): 67~72 [7] Hiroshi Utsunomiya, Yoshihiro Saito.
Journal of Materials Processing Technology.2006.(177)630~633 [8] Guo Liang-gang, Yang He.
Journal of Materials Processing Technology. 2002:619~625 [10] Hua Lin.
Online since: December 2011
Authors: Yan Min Zhang, Ke Xing Song, Cun Cang Han, Pei Feng Zhao
Research and Analysis of Material Flow Regularity in the Process of Cross Wedge Rolling for Wrought Aluminum alloy
Zhao Pei-Feng1,2,a, Hcc Cun-Cang2,3,b, Zhang Yan-Min1,2,c and Song Ke-Xing1,2,d
1Institute of Materials Science and Engineering, Henan University of Science and Technology,
Luoyang 471003, China
2Henan Key Laboratory of Advanced Non-ferrous Metals, Luoyang 471003, China
3Department of Machine Engineering, Luoyang Institute of Science and Technology, LuoYang 471000, China
azpf_1972@163.com, bhcc@lit.edu.cn, czhangmin70@163.com, dkxsong123@163.com
Keywords: Cross Wedge Rolling, Wrought Aluminum alloy, Stress, Numerical simulation
Abstract.
The selected material is 6061 aluminum alloy.
Materials Science
Intenational Journal of Machine Tools & Manufacture, Vol. 40(2000), p.49~63
[7] Yaoming Dong, Analysis of stress in cross wedge rolling with application of failure, International Journal of Mechanical Sciences, Vol. 42(2000), p.1233~1253.
The selected material is 6061 aluminum alloy.
Materials Science
Intenational Journal of Machine Tools & Manufacture, Vol. 40(2000), p.49~63
[7] Yaoming Dong, Analysis of stress in cross wedge rolling with application of failure, International Journal of Mechanical Sciences, Vol. 42(2000), p.1233~1253.