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Online since: April 2021
Authors: M.Sh. Nikhamkin, D.G. Solomonov
Advances in Materials and Processing Technologies.
International Journal of Technical Innovation in Modern Engineering & Science.
Fatigue & fracture of engineering materials & structures.
Standard Test Method for Tension-Tension Fatigue of Polymer Matrix Composite Materials.
ARPN Journal of Engineering and Applied Sciences.
International Journal of Technical Innovation in Modern Engineering & Science.
Fatigue & fracture of engineering materials & structures.
Standard Test Method for Tension-Tension Fatigue of Polymer Matrix Composite Materials.
ARPN Journal of Engineering and Applied Sciences.
Online since: August 2011
Authors: Himayat Ullah, Andy R. Harland, Robert Blenkinsopp, Tim Lucas, Dan Price, Vadim V. Silberschmidt
Both CFRP and GFRP materials had the same TPU matrix.
Bordreuil, International Journal of Fatigue, 28 (2006) 1270-1276
Rolfes, Composites Science and Technology, 70 (2010) 61-72
Reifsnider, Applied Composite Materials, 9 (2002) 249-263
Sluys, Journal of Composite Materials, 43 (2009) 2131
Bordreuil, International Journal of Fatigue, 28 (2006) 1270-1276
Rolfes, Composites Science and Technology, 70 (2010) 61-72
Reifsnider, Applied Composite Materials, 9 (2002) 249-263
Sluys, Journal of Composite Materials, 43 (2009) 2131
Online since: December 2014
Authors: Guang Biao Jiang, Ying She Luo, Yan Feng, Dang Quan Zhang, Qing Qing Shen, Shu Ling Luo, Li Li Chen
Grass materials.
Test Materials and Methods Test Materials.
After harvested, in order to keep the smaller differences among different samples, grass materials were dried in the same conditions.
Hort science Vol. 24 (1989), p. 694 [4] J.D.Pettinati.
Journal of the AOAC Vol. 58 (1975), p.1188 [5] E.CH.
Test Materials and Methods Test Materials.
After harvested, in order to keep the smaller differences among different samples, grass materials were dried in the same conditions.
Hort science Vol. 24 (1989), p. 694 [4] J.D.Pettinati.
Journal of the AOAC Vol. 58 (1975), p.1188 [5] E.CH.
Online since: May 2009
Authors: Qian Fa Deng, Feng Chen, Ju Long Yuan, Dong Hui Wen, Li Tao
The effects of different parameters on the surface
quality and the material removal rate (MRR) of SUS440 stainless steel which is lapped by SFAP are
investigated in this paper.
[3] Y.Ogita, K.Kobayashi, H.Daio:Journal of Crystal Growth, Vol.210(2000), pp.36-39
[5] S.Z.Chen, D.C.Li:Journal of Chinese Electron Microscopy Society,Vol.17(1998),pp.51-54
[6] I.Zarudi, L.C.Zhang:Journal of Materials Science Letters,Vol.15(1996),pp.586-587
[7] J.L.Yuan,Z.W.Wang,D.H.Wen:Chinese Journal of Mechanical Engineering,Vol.43(2007), pp.35-48.
[3] Y.Ogita, K.Kobayashi, H.Daio:Journal of Crystal Growth, Vol.210(2000), pp.36-39
[5] S.Z.Chen, D.C.Li:Journal of Chinese Electron Microscopy Society,Vol.17(1998),pp.51-54
[6] I.Zarudi, L.C.Zhang:Journal of Materials Science Letters,Vol.15(1996),pp.586-587
[7] J.L.Yuan,Z.W.Wang,D.H.Wen:Chinese Journal of Mechanical Engineering,Vol.43(2007), pp.35-48.
Online since: May 2014
Authors: Anne Marie Habraken, Jean Philippe Ponthot, Chantal Bouffioux, Romain Boman, Nicolas Caillet, Nicolas Rich
Ponthot: Numerical simulation of springback using enhanced assumed strain elements, Journal of Materials Processing Technology 153-154 (2004), 314-318
Ponthot, Continuous Roll Forming Simulation using Arbitrary Lagrangian Eulerian Formalism, Key Engineering Materials 473 (2011) 564-571
Habraken, Identification of material parameters to predict Single Point Incremental Forming forces, International Journal of Material Forming (2008) [6].
Fischer, Residual stress formation during the roller straightening of railway rails, International Journal of Mechanical Sciences 43 (2001) 2281-2295
Habraken, Experimental and numerical study of an AlMgSc sheet formed by an incremental process, Journal of Materials Processing Technology 211 (2011) 1684-1693
Ponthot, Continuous Roll Forming Simulation using Arbitrary Lagrangian Eulerian Formalism, Key Engineering Materials 473 (2011) 564-571
Habraken, Identification of material parameters to predict Single Point Incremental Forming forces, International Journal of Material Forming (2008) [6].
Fischer, Residual stress formation during the roller straightening of railway rails, International Journal of Mechanical Sciences 43 (2001) 2281-2295
Habraken, Experimental and numerical study of an AlMgSc sheet formed by an incremental process, Journal of Materials Processing Technology 211 (2011) 1684-1693
Online since: October 2012
Authors: Jian Long Zheng, Jun Hui Zhang, Zhi Yong Yin
Fig.1 Pile layout and finite modeling of sparse pile to control settlement
Five materials are included in the analysis, the embankment fill, the cushion, the soft clay, substratum soil, pile and geosynthetic.
We use Duncan-Chang hyperbolic model to describe the choice of embankment fill, cushion, soft clay and substratum soil.The pile and geosynthetic are linear elastic materials.
Each material parameters is as as Table 1.
Guan: Journal of China & Foreign Highway, Vol.28(2008),P.42 [6] C.
Li, G.L Dai: Journal of China & Foreign Highway, Vol.28(2008),p.28 [7] Y.X Chen, X.M Zhang, X.M Yu: Journal of Changsha University of Science & Technology(Natural Science), Vol.3(2006),p.29 [8] Hibbitt, Karlsson & Sorensen: ABAQUS Analysis User′s Manual, Ver6.2, HKS, USA, Vol.13(2001) [9] Jiangsu Province Shanghai-Nanjing Expressway Extension Project Headquarters.
We use Duncan-Chang hyperbolic model to describe the choice of embankment fill, cushion, soft clay and substratum soil.The pile and geosynthetic are linear elastic materials.
Each material parameters is as as Table 1.
Guan: Journal of China & Foreign Highway, Vol.28(2008),P.42 [6] C.
Li, G.L Dai: Journal of China & Foreign Highway, Vol.28(2008),p.28 [7] Y.X Chen, X.M Zhang, X.M Yu: Journal of Changsha University of Science & Technology(Natural Science), Vol.3(2006),p.29 [8] Hibbitt, Karlsson & Sorensen: ABAQUS Analysis User′s Manual, Ver6.2, HKS, USA, Vol.13(2001) [9] Jiangsu Province Shanghai-Nanjing Expressway Extension Project Headquarters.
Online since: November 2010
Authors: Chao Cheng Chang, Wu Lu Kuo
Ni: Materials Science & Engineering A Vol. 526 (2009), p. 93
[4] U.
Eckstein: Journal of Materials Processing Tech.
Wang: Journal of Materials Processing Tech.
Segal: Materials science & engineering.
Davies: Journal of Materials Science Vol. 42 (2007), p. 9097 [12] Y.
Eckstein: Journal of Materials Processing Tech.
Wang: Journal of Materials Processing Tech.
Segal: Materials science & engineering.
Davies: Journal of Materials Science Vol. 42 (2007), p. 9097 [12] Y.
Online since: November 2014
Authors: Xi Cong Ye, Zhen Wen Zou
The choke point of rapid prototyping technology application was analyzed, such as molding materials, precision error, and the performance of data sharing software.
Dayton University[6] used LOM technology to obtain ceramic pieces, ceramic matrix composites and resin-based composite materials.
The future prospects of RP Technology New materials of rapid prototyping Rapid prototyping materials should have strength, stiffness, moisture resistance, thermal stability requirements.
Journal of Aeronautical Materials. 22 (2002),p.22 [6]KlostermanA.
Journal of Materials Science Letters. 14(1995),p.1562 [8]Jason Grau et al.Ceramic In-dustry.,7(1996),p. 22 [9]Chen Wei, Li Guohua, Gong Zhenning, et al.
Dayton University[6] used LOM technology to obtain ceramic pieces, ceramic matrix composites and resin-based composite materials.
The future prospects of RP Technology New materials of rapid prototyping Rapid prototyping materials should have strength, stiffness, moisture resistance, thermal stability requirements.
Journal of Aeronautical Materials. 22 (2002),p.22 [6]KlostermanA.
Journal of Materials Science Letters. 14(1995),p.1562 [8]Jason Grau et al.Ceramic In-dustry.,7(1996),p. 22 [9]Chen Wei, Li Guohua, Gong Zhenning, et al.
Online since: May 2011
Authors: Shi Xue Xu, Ling Fei Xu, Yan Ru Chen
Special scattering characteristics of materials oriented method of polarization analysis
Shixue Xu1, a, Lingfei Xu2,b, Yanru Chen3,c
1,2,3Department of Optical Engineering, Nanjing University of Science and Technology, Nanjing, P.R.China 210094
aete_corner@yahoo.com.cn, bjsj900@hotmail.com, cyrchen2002@yahoo.com.cn
Keywords: Scattering, polarization analysis, modeling
Abstract.
Our experiment indicates that some typical materials have similar scattering characteristics which could fail the traditional analysis method.
The intensity of scattered light is usually determined by the reflectivity of materials and the reflectivity of many kinds of materials will change along with the angle of incidence and the angle of reflection which is usually described by bio-reflection distribution function (BRDF).
Our research indicates that the optical differentiation of materials method will have more feasibility if we take more information from the scattered light of materials’ surfaces, for example, the polarization variational tendency which is a remarkable characteristics when the two kind of materials with similar scattering characteristic are need to be distinguished.
James, “Change of polarization of light beams on propagation in free space,” Journal of Optical Society of America A, 11, 1641-1643 (1994)
Our experiment indicates that some typical materials have similar scattering characteristics which could fail the traditional analysis method.
The intensity of scattered light is usually determined by the reflectivity of materials and the reflectivity of many kinds of materials will change along with the angle of incidence and the angle of reflection which is usually described by bio-reflection distribution function (BRDF).
Our research indicates that the optical differentiation of materials method will have more feasibility if we take more information from the scattered light of materials’ surfaces, for example, the polarization variational tendency which is a remarkable characteristics when the two kind of materials with similar scattering characteristic are need to be distinguished.
James, “Change of polarization of light beams on propagation in free space,” Journal of Optical Society of America A, 11, 1641-1643 (1994)
Online since: October 2015
Authors: Salma Barboura, Jugurtha Meddour, Mohammed Haboussi, Mouhand Said Kachi, Laurent Royon
To these materials, phase change particles are added at micro or millimeter scale.
Acknowledgments We gratefully acknowledged Labex SEAM (Science and Engineering for Advanced Materials and devices) for their financial support of this work.
Li, Utilization of phase change materials and rubber particles to improve thermal and mechanical properties of mortar, Construction and Building Materials, (2012), vol. 28, pp 713–721
Xi, Effect of Phase-Change Materials on Properties of Concrete, ACI Materials Journal,( 2012), pp 1-10 [4] J.
Mechanical and Materials, (1987), vol. 6, pp 147–57
Acknowledgments We gratefully acknowledged Labex SEAM (Science and Engineering for Advanced Materials and devices) for their financial support of this work.
Li, Utilization of phase change materials and rubber particles to improve thermal and mechanical properties of mortar, Construction and Building Materials, (2012), vol. 28, pp 713–721
Xi, Effect of Phase-Change Materials on Properties of Concrete, ACI Materials Journal,( 2012), pp 1-10 [4] J.
Mechanical and Materials, (1987), vol. 6, pp 147–57