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Online since: September 2019
Authors: Kush P. Mehta, Rahul Patel
Ma, Friction stir welding and processing, Materials science and engineering: R: reports 50, 1-2 (2005) 1-78
Journal of Materials Research 34, 1 (2019) 78-96
F. dos Santos, Keyhole closure using friction spot welding in aluminum alloy 6061–T6, Journal of Materials Processing Technology, 237 (2016) 12-18
In Trans Tech Publications, Materials Science Forum 765 (2013) 776-780
Strohaecker, The influence of refill FSSW parameters on the microstructure and shear strength of 5042 aluminium welds, Journal of materials processing technology 213, 6 (2013) 997-1005
Journal of Materials Research 34, 1 (2019) 78-96
F. dos Santos, Keyhole closure using friction spot welding in aluminum alloy 6061–T6, Journal of Materials Processing Technology, 237 (2016) 12-18
In Trans Tech Publications, Materials Science Forum 765 (2013) 776-780
Strohaecker, The influence of refill FSSW parameters on the microstructure and shear strength of 5042 aluminium welds, Journal of materials processing technology 213, 6 (2013) 997-1005
Online since: September 2011
Authors: Yong Duo Liang, Zhi Guo Sun, Gong Cai Chi, Bing Jun Si
The use of high strength reinforcement and high strength concrete in bridge columns is increasing due to many advantages of the high strength materials.
Acknowledgements This work was financially supported by the National Natural Science Fund(50978042).
ACI Structural Journal, 2008, 105(3), p. 290-300 [8] Sheikh S A, Khoury S S.
ACI Structural Journal, 1994, 91(1), p. 100-111 [10] Bayrak O.
Course of Study on Grey System Theory [M].Wuhan:Huazhong University of Science and Technology Press,1992.
Acknowledgements This work was financially supported by the National Natural Science Fund(50978042).
ACI Structural Journal, 2008, 105(3), p. 290-300 [8] Sheikh S A, Khoury S S.
ACI Structural Journal, 1994, 91(1), p. 100-111 [10] Bayrak O.
Course of Study on Grey System Theory [M].Wuhan:Huazhong University of Science and Technology Press,1992.
Online since: November 2012
Authors: Ferenc Ronkay, M. Olah
The comparison of these matrix materials with respect to the resulting electrical conductivity were investigated in depth.
Experimental work Materials Two matrix materials have been processed.
Winter: International Journal of Hydrogen Energy 34 (2009) S1-S52 [6] Z.
Pötscke: European Polymer Journal 46 (2010) 928-936 [8] B.
Fergus, X Li: Proton Exchange Membrane Fuel Cells: Materials Properties and Performance (2010) CRC Press, Boca Raton, FL
Experimental work Materials Two matrix materials have been processed.
Winter: International Journal of Hydrogen Energy 34 (2009) S1-S52 [6] Z.
Pötscke: European Polymer Journal 46 (2010) 928-936 [8] B.
Fergus, X Li: Proton Exchange Membrane Fuel Cells: Materials Properties and Performance (2010) CRC Press, Boca Raton, FL
Online since: June 2013
Authors: Philip Harrison, Farag Abdiwi, Woong Ryeol Yu
Effect of Tow Meander on the Shear Compliance of Woven Engineering Fabrics Measured using the Biaxial Bias Extension Test
Farag Abdiwi1, Philip Harrison1 and Woong-Ryeol Yu2
1 School of Engineering, James Watt Building (South)
University of Glasgow, Glasgow G12 8QQ, UK
2 Department of Materials Science and Engineering, 33 Dong 305 Ho, Seoul National University, 1 Gwanak-ro, Gwanak-gu, Seoul 151-742, South Korea
f.abdiwi.1@research.gla.ac.uk, Philip.Harrison@glasgow.ac.uk, woongryu@snu.ac.kr
Keywords: Biaxial bias extension test, woven engineering fabric, variability.
Composites Science and Technology, 72, (9), 1034–1041, 2012 [4] Prodromou, A. and Chen, J., On the Relationship between Shear Angle and Wrinkling of Textile Composites Preforms, Composites: Part A, (28): 491-503, 1997 [5] Wang, J., Predictive Modelling and Experimental Measurement of Composite Forming Behaviour, PhD Thesis, University of Nottingham, 2008 [6] Lussier, D., and Chen, J., Material Characterization of Woven Fabrics for Thermoforming of Composites, Journal of Thermoplastic Composite Materials, 15, 497-509, 2002 [7] Peng, X. and Cao, J., A Continuum Mechanics-Based Non-Orthogonal Constitutive Model for Woven Composite Fabrics, Composites: Part A, 36, 859–874, 2005 [8] Launay, L., Hivet, G., Duong, A. and Boisse, P., Experimental Analysis of the Influence of Tensions on in Plane Shear Behaviour of Woven Composite Reinforcements, Composites Science and Technology, 68, 2, 506–515, 2008 [9] Milani, A., Nemes, J., Lebrun, G., and Bureau, M., A Comparative Analysis of a Modified
Picture Frame Test for Characterization of Woven Fabrics, Polymer Composites, 31(4): 561-568, 2010 [10] Komeili, M. and Milani, A., Shear Response of Woven Fabric Composites under Meso-Level Uncertainties, Journal of Composite Materials, 1–11, 2012 [11] Hivet, G. and Duong, A., A Contribution to the Analysis of the Intrinsic Shear Behaviour of Fabrics, Journal of Composite Materials, 45(6), 695–716, 2010 [12] Harrison, P.
International Journal of Material Forming. 1:891-894, 2008 [14] Abdiwi, F., Harrison, P., Yu, W.R. and Guo, Z., Modelling the Shear-Tension Coupling of Engineering Fabrics.
Composites Part A: Applied Science and Manufacturing, 43 (9), 1546-1554, 2012
Composites Science and Technology, 72, (9), 1034–1041, 2012 [4] Prodromou, A. and Chen, J., On the Relationship between Shear Angle and Wrinkling of Textile Composites Preforms, Composites: Part A, (28): 491-503, 1997 [5] Wang, J., Predictive Modelling and Experimental Measurement of Composite Forming Behaviour, PhD Thesis, University of Nottingham, 2008 [6] Lussier, D., and Chen, J., Material Characterization of Woven Fabrics for Thermoforming of Composites, Journal of Thermoplastic Composite Materials, 15, 497-509, 2002 [7] Peng, X. and Cao, J., A Continuum Mechanics-Based Non-Orthogonal Constitutive Model for Woven Composite Fabrics, Composites: Part A, 36, 859–874, 2005 [8] Launay, L., Hivet, G., Duong, A. and Boisse, P., Experimental Analysis of the Influence of Tensions on in Plane Shear Behaviour of Woven Composite Reinforcements, Composites Science and Technology, 68, 2, 506–515, 2008 [9] Milani, A., Nemes, J., Lebrun, G., and Bureau, M., A Comparative Analysis of a Modified
Picture Frame Test for Characterization of Woven Fabrics, Polymer Composites, 31(4): 561-568, 2010 [10] Komeili, M. and Milani, A., Shear Response of Woven Fabric Composites under Meso-Level Uncertainties, Journal of Composite Materials, 1–11, 2012 [11] Hivet, G. and Duong, A., A Contribution to the Analysis of the Intrinsic Shear Behaviour of Fabrics, Journal of Composite Materials, 45(6), 695–716, 2010 [12] Harrison, P.
International Journal of Material Forming. 1:891-894, 2008 [14] Abdiwi, F., Harrison, P., Yu, W.R. and Guo, Z., Modelling the Shear-Tension Coupling of Engineering Fabrics.
Composites Part A: Applied Science and Manufacturing, 43 (9), 1546-1554, 2012
Online since: December 2014
Authors: You Zhen Yang, Han Lin Ma, Zi Fan Guo
The rock belongs to brittle material.
The rock is brittle material.
Chinese Journal of rock mechanics and Engineering, 1995, 16(3): 43-48.
Sciences of Conservation and Archaeology, 2007, 19(4): 37-40.
International Journal of Rock Mechanics and Mining Sciences, 2013, 62: 34-41
The rock is brittle material.
Chinese Journal of rock mechanics and Engineering, 1995, 16(3): 43-48.
Sciences of Conservation and Archaeology, 2007, 19(4): 37-40.
International Journal of Rock Mechanics and Mining Sciences, 2013, 62: 34-41
Online since: May 2012
Authors: Arshad Bashir, R.A. Alvi, M. Shahid, A.G. Yahya
Viscous materials like honey resist shear flow and strain linearly with time.
Viscoelastic materials have elements containing both of these properties and, as such, exhibit time dependent strain.
Experimental Materials: Natural Rubber (RSS1–Ribbed Smoke Sheet) was used as base polymer.
[3] Meyers and Chawla (1999): "Mechanical Behavior of Materials," 98-103
Modeling of Diffusion in closed cell polymeric foams, Journal ofcellular plastics, 35(3):247
Viscoelastic materials have elements containing both of these properties and, as such, exhibit time dependent strain.
Experimental Materials: Natural Rubber (RSS1–Ribbed Smoke Sheet) was used as base polymer.
[3] Meyers and Chawla (1999): "Mechanical Behavior of Materials," 98-103
Modeling of Diffusion in closed cell polymeric foams, Journal ofcellular plastics, 35(3):247
Online since: May 2011
Authors: Chen Liang Zhou, Shu Yun Xu, Ke Duan Zhi, Run Xia He, Quan Sheng Liu, Qian Zhang
Chemistry Materials, Vol. 14(2002), p. 697
Chemistry Materials, Vol. 14(2002), p. 3844
Journal of Porous Materials, Vol. 5(1998), p. 153
Materials, Vol. 16(2004), p. 4330
Microporous Materials, Vol. 11(1997), p. l
Chemistry Materials, Vol. 14(2002), p. 3844
Journal of Porous Materials, Vol. 5(1998), p. 153
Materials, Vol. 16(2004), p. 4330
Microporous Materials, Vol. 11(1997), p. l
Online since: October 2014
Authors: Hamid Garmestani, Steven Y. Liang, Omar Fergani, A. Tabei
Langdon, Materials Science and Engineering: A, Vol. 318 (2001) p. 34-41
Hodgson, Materials Science and Engineering: A, Vol. 302 (2001) p. 206-214
Tóth, Progress in Materials Science, Vol. 54 (2009) p. 427-510
Hellmig, Materials Science and Engineering: A, Vol. 351 (2003) p. 86-97
Özel, Journal of manufacturing science and engineering, Vol. 128 (2006) p. 435-444
Hodgson, Materials Science and Engineering: A, Vol. 302 (2001) p. 206-214
Tóth, Progress in Materials Science, Vol. 54 (2009) p. 427-510
Hellmig, Materials Science and Engineering: A, Vol. 351 (2003) p. 86-97
Özel, Journal of manufacturing science and engineering, Vol. 128 (2006) p. 435-444
Online since: July 2022
Authors: Katsuyuki Kida, Koshiro Mizobe, Yoshiki Takezawa, Shusuke Kita
These values were almost the same as for Q1T1, i.e., the stress-induced martensitic transformation was caused in both materials (Q1T1 and Q3T1), and the prior austenite was refined by repeated quenching.
Rozwadowska, FATIGUE STRENGTH IMPROVEMENT OF AISI E52100 BEARING STEEL BY INDUCTION HEATING AND REPEATED QUENCHING, Materials Science, Vol. 47, No. 5, pp. 677-682, (2012)
Rozwadowska, Effect of repeated induction heating on fatigue crack propagation in SAE 52100 bearing steel, Advanced Materials Research, Vols. 217-218, pp. 1266-1271, (2011)
Kida, Observation of non-metallic inclusions on repeatedly quenched SAE 52100 bearing steel fracture surfaces, International Jornal of Materials and Product Technology, Vol. 44, pp. 227-239, (2012)
Kida, Development of Surface Etching (FSE) Method around Non-Metallic Inclusion of SUJ2 Steel, Material Science Forum, Vol. 971, pp. 65-69, (2019).
Rozwadowska, FATIGUE STRENGTH IMPROVEMENT OF AISI E52100 BEARING STEEL BY INDUCTION HEATING AND REPEATED QUENCHING, Materials Science, Vol. 47, No. 5, pp. 677-682, (2012)
Rozwadowska, Effect of repeated induction heating on fatigue crack propagation in SAE 52100 bearing steel, Advanced Materials Research, Vols. 217-218, pp. 1266-1271, (2011)
Kida, Observation of non-metallic inclusions on repeatedly quenched SAE 52100 bearing steel fracture surfaces, International Jornal of Materials and Product Technology, Vol. 44, pp. 227-239, (2012)
Kida, Development of Surface Etching (FSE) Method around Non-Metallic Inclusion of SUJ2 Steel, Material Science Forum, Vol. 971, pp. 65-69, (2019).
Online since: August 2014
Authors: Shen Bai Zheng, Shi Jie Liu, Hong Bin Li, Xue Song Hui, Bin Feng
If the magnetic field intensity is increased, it could provide better performance of raw materials to cold rolling processing.
Domestic materials science scholars published papers since 2002, such as Changshu He etc[11]. they studied annealing with strong magnetic-field effect on recrystallization texture of cold-rolled IF steel sheet in initial stage of recrystallization, which got the results of the higher magnetic field strength being, the more ferrite being,the bigger grain.
Proceedings of the International Conference on Microstructure and Texture in Steels and Other Materials .
New York: The Materials Metals & Materials Society, 1994
Journal Northeast University,2007,28(8):1131-1135.
Domestic materials science scholars published papers since 2002, such as Changshu He etc[11]. they studied annealing with strong magnetic-field effect on recrystallization texture of cold-rolled IF steel sheet in initial stage of recrystallization, which got the results of the higher magnetic field strength being, the more ferrite being,the bigger grain.
Proceedings of the International Conference on Microstructure and Texture in Steels and Other Materials .
New York: The Materials Metals & Materials Society, 1994
Journal Northeast University,2007,28(8):1131-1135.