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Online since: November 2021
Authors: You Yang, Hong Shuai Li, Yu Xin Huang
Regully, et al., Impact toughness properties of nickel-free austenitic stainless steels, Materials Science and Engineering: A, 496 (2008) 189-199
Simmon, Overview, high-nitrogen alloying of stainless steels, Materials Science and Engineering A, 207 (1996) 159-169
Liu, Transgranular fracture in low temperature brittle fracture of high nitrogen austenitic steel, Journal of Materials Science, 42 (2007) 7514-7519
Takagi, et al., Grain size effect on high-speed deformation of Hadfield steel, Journal of Materials Science, 47 (2012) 7946-7953
Scheu, et al., Microstructural evolution of Cr–Mn–N austenitic steels during cold work hardening, Materials Science and Engineering: A, 427 (2006) 246-254
Simmon, Overview, high-nitrogen alloying of stainless steels, Materials Science and Engineering A, 207 (1996) 159-169
Liu, Transgranular fracture in low temperature brittle fracture of high nitrogen austenitic steel, Journal of Materials Science, 42 (2007) 7514-7519
Takagi, et al., Grain size effect on high-speed deformation of Hadfield steel, Journal of Materials Science, 47 (2012) 7946-7953
Scheu, et al., Microstructural evolution of Cr–Mn–N austenitic steels during cold work hardening, Materials Science and Engineering: A, 427 (2006) 246-254
Online since: October 2009
Authors: Li Li, Hong Li
In the process of analysis, the temperature-dependent properties of materials and enthalpy
are considered.
The material fibers at the welding line are compressed when being heated and tensioned when being cooled obviously by adjacent materials.
Journal of Materials Processing Technology. 176, (2006) , p77-86 [3] LI Donglin,YU Yousheng,WEN Jialing,CHEN Mingqing:3D Dynamic Simulation on Temperature Field of Surfacing.
Journal of Wuhan University of Technology. 28(6), (2004), p866 -869 (in Chinese) [6] Dean Deng,Hidekazu Murakawa:Numerical Simulation of Temperature Field and Residual Stress in Multi-pass Welds in Stainless Steel Pipe and Comparison with Experimental Measurements.Computational Materials Science. 37, (2006), p269-277 [7] NI Hongfang,LING Xiang,TU Shandong: Simulation of 3D Residual Stresses Field of Multi-pass Welding by FEM.
Miresmaeili:Experimental and Numerical Analyses of Residual Stress Distributions in TIG Welding Process for 304L Stainless Steel.Journal of Materials Processing Technology. 2 0 8, ( 2 0 0 8 ), p383-394 [9] R.H.
The material fibers at the welding line are compressed when being heated and tensioned when being cooled obviously by adjacent materials.
Journal of Materials Processing Technology. 176, (2006) , p77-86 [3] LI Donglin,YU Yousheng,WEN Jialing,CHEN Mingqing:3D Dynamic Simulation on Temperature Field of Surfacing.
Journal of Wuhan University of Technology. 28(6), (2004), p866 -869 (in Chinese) [6] Dean Deng,Hidekazu Murakawa:Numerical Simulation of Temperature Field and Residual Stress in Multi-pass Welds in Stainless Steel Pipe and Comparison with Experimental Measurements.Computational Materials Science. 37, (2006), p269-277 [7] NI Hongfang,LING Xiang,TU Shandong: Simulation of 3D Residual Stresses Field of Multi-pass Welding by FEM.
Miresmaeili:Experimental and Numerical Analyses of Residual Stress Distributions in TIG Welding Process for 304L Stainless Steel.Journal of Materials Processing Technology. 2 0 8, ( 2 0 0 8 ), p383-394 [9] R.H.
Online since: June 2021
Authors: Rossen Radev, Yulian Angelov, Nikolay Ferdinandov, Ivo Draganov, Stiliyana Mileva, Danail Gospodinov
Science and Technology of Advanced Materials, Vol. 13, Issue 2 (2012) 1-20
Materials and Design 33 (2012) 383-394
Computational Materials Science 43 (2008) 353–365
Machines, Technologies, Materials, ISSUE 11 (2013) 9-12
Mechanical Behaviour of Materials (1983) 1015
Materials and Design 33 (2012) 383-394
Computational Materials Science 43 (2008) 353–365
Machines, Technologies, Materials, ISSUE 11 (2013) 9-12
Mechanical Behaviour of Materials (1983) 1015
Online since: March 2016
Authors: Kai Wang, Jiang Long Yi, Shi Da Zheng, Chun Fu Guo, He Xin Chen, Xin Xin Wang, Ben Niu
All the samples appear as composite materials,and the SEM micrographs were consistent with its metallurgical structure.
Materials and Design (2012), 34, 258
Journal of Materials Processing Technology (2006),171(2), 223-231
Welding Journal (2008), 87(3), 65S-75S
Welding Journal (2000), 79(10), 295S-303S
Materials and Design (2012), 34, 258
Journal of Materials Processing Technology (2006),171(2), 223-231
Welding Journal (2008), 87(3), 65S-75S
Welding Journal (2000), 79(10), 295S-303S
Online since: December 2013
Authors: M.Y. Noordin, Denni Kurniawan, Ani Idris, N.H.A. Ngadiman
Journal of Biomedical Materials Research.
Journal of Applied Polymer Science, Vol 102 (2006) 1285-1290
Sotzing, Welded Electrochromic conductive polymer nanofibers by electrostatic spinning, Advanced Materials. vol. 17 (2005) :2177-2180
Xia, Electrospinning of nanofibers: Reinventing the wheel, Advanced Materials. 16 (2004) :1151-1170
Materials Science and Engineering 32 (2012) :2562–2569
Journal of Applied Polymer Science, Vol 102 (2006) 1285-1290
Sotzing, Welded Electrochromic conductive polymer nanofibers by electrostatic spinning, Advanced Materials. vol. 17 (2005) :2177-2180
Xia, Electrospinning of nanofibers: Reinventing the wheel, Advanced Materials. 16 (2004) :1151-1170
Materials Science and Engineering 32 (2012) :2562–2569
Online since: October 2010
Authors: Su Su Gao, Shan Ting Li, Sha Sha Wu, Ting Xi Li, Peng Sui, Na Kong
ET Materials No.
Journal of Shandong University of Science and Technology.
Journal of Functional Materials.
Journal of Heilongjiang Institute of Science & Technology.
Vol. 17(2007), p.119 [13] Li Tingxi, Journal of Materials Science and Technology.
Journal of Shandong University of Science and Technology.
Journal of Functional Materials.
Journal of Heilongjiang Institute of Science & Technology.
Vol. 17(2007), p.119 [13] Li Tingxi, Journal of Materials Science and Technology.
Online since: March 2012
Authors: H. Basri, Muhamad Zaini Yunos, Ahmad Fauzi Ismail, Zawati Harun
Experimental
Materials.
Teo, Journal of Membrane Science, 2000. 176(2): p. 147-158
Purkait, Journal of Membrane Science, 2008. 309(1-2): p. 209-221
[14] Han, J., etc., Journal of Membrane Science, 2010. 365(1-2): p. 311-318
[17] Xu, A., etc., Journal of Membrane Science, 2008. 311(1-2): p. 153-158
Teo, Journal of Membrane Science, 2000. 176(2): p. 147-158
Purkait, Journal of Membrane Science, 2008. 309(1-2): p. 209-221
[14] Han, J., etc., Journal of Membrane Science, 2010. 365(1-2): p. 311-318
[17] Xu, A., etc., Journal of Membrane Science, 2008. 311(1-2): p. 153-158
Online since: September 2013
Authors: Bambang Sunendar Purwasasmita, Elsy Rahimi Chaldun, Myrtha Karina
Therefore BC has opportunities to produce materials with a new properties.
Currently, development of BS application as advanced materials has been widely used for the edible film, scaffold, Bloods vessels, wond dressing materials, paper products, electronic, acoustic, energy storage[3-11].
Uryu:Journal of Material Science Vol.24 (1989), pp:3141-3145 [13] L.
Rahimi: Indonesian Material Sciences Journal , Vol. 8 (2006),pp: 40-44 [14] A.
Marsh: Journal of Material Science(1982), pp.309-322 [15] H.
Currently, development of BS application as advanced materials has been widely used for the edible film, scaffold, Bloods vessels, wond dressing materials, paper products, electronic, acoustic, energy storage[3-11].
Uryu:Journal of Material Science Vol.24 (1989), pp:3141-3145 [13] L.
Rahimi: Indonesian Material Sciences Journal , Vol. 8 (2006),pp: 40-44 [14] A.
Marsh: Journal of Material Science(1982), pp.309-322 [15] H.
Online since: July 2019
Authors: Reeti Singh, Jagannadh V.S.N. Sripada, Megil F. Gallant, Jan Kondas, Gobinda C. Saha
The low temperature and solid-state deposition associated with cold spray allows refractory materials such as Ta, Mo, and W to be deposited without high temperature requirements.
There appears to be very dense and homogeneous flow of material shear present in all coatings.
Yield stress of a material is defined by the onset of 0.2 % plastic deformation which is denoted by Rp0.2.
Walia, T.S.Sidhu, Effect of Parameters on Coating Density for Cold Spray Process, Materials and Manufacturing Processes. 27 (2012) 193-200
Neiser, Optimizing the Cold Spray Process, Thermal Spray: Advancing the Science and Applying the Technology, B.R.
There appears to be very dense and homogeneous flow of material shear present in all coatings.
Yield stress of a material is defined by the onset of 0.2 % plastic deformation which is denoted by Rp0.2.
Walia, T.S.Sidhu, Effect of Parameters on Coating Density for Cold Spray Process, Materials and Manufacturing Processes. 27 (2012) 193-200
Neiser, Optimizing the Cold Spray Process, Thermal Spray: Advancing the Science and Applying the Technology, B.R.
Online since: March 2007
Authors: Yi Hua Cui, Stephen Lee, Bahman Noruziaan, Moe M.S. Cheung, Jie Tao
Experimental
Materials.
As has been discussed before, wood fibers and HDPE are two kinds of materials with different physical properties and microstructures.
Through surface treatment of wood fiber may improve the interfacial bonding between these two materials to a certain degree.
Woodhouse: Journal of Materials Science. 29 (1994), p. 1250
Bledzki: Journal of Applied Polymer Science. 82 (2001), p. 1417.
As has been discussed before, wood fibers and HDPE are two kinds of materials with different physical properties and microstructures.
Through surface treatment of wood fiber may improve the interfacial bonding between these two materials to a certain degree.
Woodhouse: Journal of Materials Science. 29 (1994), p. 1250
Bledzki: Journal of Applied Polymer Science. 82 (2001), p. 1417.