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Online since: January 2013
Authors: Shui Bo Xie, Hui Ling, Zhen Ping Tang, S.Y. Li, J.S. Wang, H.Y. Liu
Experimental
Materials.
Jouranal of Hazardous Materials,2009,163:475-510
Adsorption characteristic of U(VI) ion onto thermally activated bentonite[J].Journal of Hazardous Materials,2009,172:667-674
Uranium sorption on bentonite modified by octadecyltrimethylammonium bromide[J].Journal of Hazardous Materials,2010,184:662-670
Review of second-order models for adsorption systems[J].Journal of Hazardous Materials.2006,136: 681-689
Jouranal of Hazardous Materials,2009,163:475-510
Adsorption characteristic of U(VI) ion onto thermally activated bentonite[J].Journal of Hazardous Materials,2009,172:667-674
Uranium sorption on bentonite modified by octadecyltrimethylammonium bromide[J].Journal of Hazardous Materials,2010,184:662-670
Review of second-order models for adsorption systems[J].Journal of Hazardous Materials.2006,136: 681-689
Online since: January 2019
Authors: Yu Li, Zhao Zhong Yang, Xiao Gang Li, Zi jia Liao, Jun Ya Xiong
For brittle materials such as proppant, when its stress is up to tensile stress limit, the material will be broken.
Journal of Natural Gas Science & Engineering, 2016, 33: 70-80
Mechanical Testing of Glass Hollow Microspheres[M]// Advances in Materials Characterization.
Journal of Southwest University of Science and Technology, 2018, 33(1): 8-12 (in Chinese)
[9]Gao H, Zheng Y R, Feng X T .EXPLORATION ON YIELD AND FAILURE OF MATERIALS [J].
Journal of Natural Gas Science & Engineering, 2016, 33: 70-80
Mechanical Testing of Glass Hollow Microspheres[M]// Advances in Materials Characterization.
Journal of Southwest University of Science and Technology, 2018, 33(1): 8-12 (in Chinese)
[9]Gao H, Zheng Y R, Feng X T .EXPLORATION ON YIELD AND FAILURE OF MATERIALS [J].
Online since: March 2013
Authors: Fu Liang Zhu, Yan Shuang Meng
In particular, NiO has received a considerable amount of attention for its catalyst, electrode, gas sensors and magnetic materials[3-5].
Materials Letters, 2007, 61, ( 8-9) , 1615-1618
Materials Science and Engineering A, 2001,304-306: 814-817
[7] Deki S, Iizuka S, Mizuhata M, et al, Fabrication of Nano-structured Materials from Aqueous Solution by Liquid Phase Deposition[J].
Materials Research Bulletin, 2006, 41(3): 620-627.
Materials Letters, 2007, 61, ( 8-9) , 1615-1618
Materials Science and Engineering A, 2001,304-306: 814-817
[7] Deki S, Iizuka S, Mizuhata M, et al, Fabrication of Nano-structured Materials from Aqueous Solution by Liquid Phase Deposition[J].
Materials Research Bulletin, 2006, 41(3): 620-627.
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 2014
Authors: Chang Wu Xu, Cong Yu, Jian Dan
The concrete filled steel tubular (CFST) structure takes full advantages of the interaction of two materials in the process of loading, while the thermal performance parameters between steel tube and concrete are different, and the outside temperature changes makes the structural section produce a greater temperature gradient, which leads to the uncoordinated deformation between them.
Introduction Concrete filled steel tube (CFST) structure is a new composition of structure, the overall performances of CFST structure are superior to the simple addition of two kinds of material’ performance through the composition of these two materials, that is, the interaction of two materials is made full use in the process of loading, so such kind of composite structure is widely applied in the actual engineering [1-3].
Acknowledgments It is a project supported by the National Natural Science Foundation (No.51078298).
Venkatesh: Response of concrete-filled HSS columns in real fires, Engineering Journal, vol. 46(2009), no. 4, p. 243-256
Li: Temperature Distribution in Dumbbell Cross Section CFST Arches Due to Solar Radiation, China Railway Science, vol. 27(2006), no. 5, pp. 71-75.
Introduction Concrete filled steel tube (CFST) structure is a new composition of structure, the overall performances of CFST structure are superior to the simple addition of two kinds of material’ performance through the composition of these two materials, that is, the interaction of two materials is made full use in the process of loading, so such kind of composite structure is widely applied in the actual engineering [1-3].
Acknowledgments It is a project supported by the National Natural Science Foundation (No.51078298).
Venkatesh: Response of concrete-filled HSS columns in real fires, Engineering Journal, vol. 46(2009), no. 4, p. 243-256
Li: Temperature Distribution in Dumbbell Cross Section CFST Arches Due to Solar Radiation, China Railway Science, vol. 27(2006), no. 5, pp. 71-75.
Online since: August 2015
Authors: Mohd Afendi, Haftirman Haftirman, K.S. Basaruddin, A.R. Syayuthi
Specimen materials were used AISI 3140 steel.
Specimen size increase with decreasing in fatigue strength for all steel materials.
Table 1 Size effect coefficient of steel materials, K HC Materials Size effect coefficient, KHC (ϕ 8 mm) (ϕ 2 mm) (ϕ 1 mm) SS400 1.0 1.18 1.18 S45C 1.0 1.32 1.26 AISI 3140 1.0 1.87 1.53 Fig. 6.
Furuya, Notable Size Effects on Very High Cycle Fatigue Properties of High-strength Steel, Materials Science & Engineering A, 528 (2011), 5234-5240
Tanigawa, Journal of Nuclear Materials, 01 (2000) 283, 1018-1022
Specimen size increase with decreasing in fatigue strength for all steel materials.
Table 1 Size effect coefficient of steel materials, K HC Materials Size effect coefficient, KHC (ϕ 8 mm) (ϕ 2 mm) (ϕ 1 mm) SS400 1.0 1.18 1.18 S45C 1.0 1.32 1.26 AISI 3140 1.0 1.87 1.53 Fig. 6.
Furuya, Notable Size Effects on Very High Cycle Fatigue Properties of High-strength Steel, Materials Science & Engineering A, 528 (2011), 5234-5240
Tanigawa, Journal of Nuclear Materials, 01 (2000) 283, 1018-1022
Online since: December 2012
Authors: Xiao Yan Luo, Wei Ping Liu
The formulas in the paper have significance in exerting material potential and save material.
Through numerous tests on rock, the existence of the intermediate principal stress effect has now been well recognized as characteristics of the materials [4] [5].
The theory is especially versatile in reflecting effect to different extents for different materials.
Shosuke, et al: Journal of Structural Engineering, Vol.130(2004), p.180-188
[7] Xiaorong Hu, Taiqing Lin:The Chinese Journal of Nonferrous Metals.Vol. 17(2007) ,p.207-215.
Through numerous tests on rock, the existence of the intermediate principal stress effect has now been well recognized as characteristics of the materials [4] [5].
The theory is especially versatile in reflecting effect to different extents for different materials.
Shosuke, et al: Journal of Structural Engineering, Vol.130(2004), p.180-188
[7] Xiaorong Hu, Taiqing Lin:The Chinese Journal of Nonferrous Metals.Vol. 17(2007) ,p.207-215.
Online since: June 2008
Authors: Ingor Baumann, Benjamin Krebs, Wolfgang Tillmann, Evelina Vogli
Several hard materials were investigated as spray feedstocks.
US Materials Science and Engineering, Part A (Structural Materials: Properties, Microstructure and Processing 1995), 204(1-2), p. 246-251 [7] S.Y.
Materials Science and Engineering, Part A (Structural Materials: Properties, Microstructure and Processing 2007), 448-451, p. 894-897 [8] R.
Journal of Materials Processing Technology (2001), 117(3), p. 418-423 [12] R.
Materials Science and Engineering, Part A (Structural Materials: Properties, Microstructure and Processing 2005), 408(1-2), p. 202-210 [15] R.C.
US Materials Science and Engineering, Part A (Structural Materials: Properties, Microstructure and Processing 1995), 204(1-2), p. 246-251 [7] S.Y.
Materials Science and Engineering, Part A (Structural Materials: Properties, Microstructure and Processing 2007), 448-451, p. 894-897 [8] R.
Journal of Materials Processing Technology (2001), 117(3), p. 418-423 [12] R.
Materials Science and Engineering, Part A (Structural Materials: Properties, Microstructure and Processing 2005), 408(1-2), p. 202-210 [15] R.C.
Online since: October 2025
Authors: Penpisuth Thongyoug, Saowaluk Chaleawlert-Umpon, Ratchapon Nilprapa, Jennarong Tungtrongpairoj, Paweena Treewiriyakitja
Materials
Environment
kp (mg2 cm-4 s-1)
Ref.
M., "Characterizing high temperature crack growth behaviour under mixed environmental, creep and fatigue conditions," Materials Science and Engineering: A, 728 (2018) 102-114
[4] Yamazaki, S., Lu, Z., Ito, Y., Takeda, Y., & Shoji, T., "The effect of prior deformation on stress corrosion cracking growth rates of Alloy 600 materials in a simulated pressurized water reactor primary water," Corrosion Science, 50 (2008) 835-846
T., "Oxidation behavior of ferritic–martensitic and ODS steels in supercritical water," Journal of Nuclear Materials, 424 (2012) 261-276
G., “Long-term high temperature oxidation behavior of ODS ferritics,” Journal of Nuclear Materials. 307 (2002) 763-768
M., "Characterizing high temperature crack growth behaviour under mixed environmental, creep and fatigue conditions," Materials Science and Engineering: A, 728 (2018) 102-114
[4] Yamazaki, S., Lu, Z., Ito, Y., Takeda, Y., & Shoji, T., "The effect of prior deformation on stress corrosion cracking growth rates of Alloy 600 materials in a simulated pressurized water reactor primary water," Corrosion Science, 50 (2008) 835-846
T., "Oxidation behavior of ferritic–martensitic and ODS steels in supercritical water," Journal of Nuclear Materials, 424 (2012) 261-276
G., “Long-term high temperature oxidation behavior of ODS ferritics,” Journal of Nuclear Materials. 307 (2002) 763-768
Online since: October 2008
Authors: B. Basu, G.B. Raju
Castro:
Materials Science and Engineering A216 (1996), 185-192.
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