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Online since: February 2012
Authors: Zheng Ren, Xiu Rong Zhu, Jian Bo Sun, Jin Jun Tang, Xin Bing Zhao
Materials and methods
The apparatus of direct chill continuous casting for clad slab is schematically shown in Fig. 1.
Tensile tests were conducted at an initial strain rate of 10-2 s-1 at room temperature on MTS NEW-810 Materials Test System.
References [1] George Durst: Journal of Metals Vol.11 (1956), p. 71
[2] Robert B.Wagstaff: Materials Science Forum Vol. 519-521 (2006), p. 1809
[4] Gow-Yi, T zou: Journal of Materials Processing Technology Vol. 140 (2003), p. 625
Tensile tests were conducted at an initial strain rate of 10-2 s-1 at room temperature on MTS NEW-810 Materials Test System.
References [1] George Durst: Journal of Metals Vol.11 (1956), p. 71
[2] Robert B.Wagstaff: Materials Science Forum Vol. 519-521 (2006), p. 1809
[4] Gow-Yi, T zou: Journal of Materials Processing Technology Vol. 140 (2003), p. 625
Online since: June 2022
Authors: Wei Zheng, Qin Hao Wang, Xue Dong He, Hua Qiang Yin, Hao Xiang Li, Tao Ma
The primary coolant of High-Temperature Gas-cooled Reactor (HTGR) is expected to contain impurities that can make corrosion to structural metallic materials at elevated temperatures.
The impure helium presents new challenges to the properties of materials under very high temperatures.
Journal of Nuclear Materials, 140(2): 94-105 (1986)
Materials and Corrosion, 36(8): 141-150 (1985)
Materials & Corrosion, 36(8): 335-347 (1985)
The impure helium presents new challenges to the properties of materials under very high temperatures.
Journal of Nuclear Materials, 140(2): 94-105 (1986)
Materials and Corrosion, 36(8): 141-150 (1985)
Materials & Corrosion, 36(8): 335-347 (1985)
Online since: September 2013
Authors: Lu Liu, Yan Wei Zhao, Xiang Han, Jing Guan
Therefore, the chitosan-based materials have become a new generation of promising local hemostatic agents that are undergoing active development.
Figure 2 Coagulation time in vitro and in vivo: Dymatic clotting time in vitro(A)showed D1 and D2 possessed excellent hemostasis in vitro superior to other materials.
Journal of Applied Polymer Science, 2011,121(4):2239-2249 [8] Braun JL, Kadla JF.
Journal of Applied Polymer Science 2009,14 (5): 3303-3309
Journal of controlled release. 1990, 13:21-31 [11] Ong SY, Wu J, Moochhala SM, Tan MH, Lu J.
Figure 2 Coagulation time in vitro and in vivo: Dymatic clotting time in vitro(A)showed D1 and D2 possessed excellent hemostasis in vitro superior to other materials.
Journal of Applied Polymer Science, 2011,121(4):2239-2249 [8] Braun JL, Kadla JF.
Journal of Applied Polymer Science 2009,14 (5): 3303-3309
Journal of controlled release. 1990, 13:21-31 [11] Ong SY, Wu J, Moochhala SM, Tan MH, Lu J.
Online since: January 2020
Authors: Xiao Ma Ding, Zhi Feng Hu, Hai Juan Kong, Mu Huo Yu, Meng Meng Qiao
Experimental
Materials.
Journal of Materials Science, 53 (2018), 13291-13303
Journal of Applied Polymer Science, (2015), 132
Journal of Applied Polymer Science, 133 (2016), n/a-n/a
Journal of Natural Gas Science & Engineering, 30 (2016), 268-275
Journal of Materials Science, 53 (2018), 13291-13303
Journal of Applied Polymer Science, (2015), 132
Journal of Applied Polymer Science, 133 (2016), n/a-n/a
Journal of Natural Gas Science & Engineering, 30 (2016), 268-275
Online since: August 2014
Authors: Xiao Dong Yu, Yan Qin Zhang, Wei Wei Li, Xiao Dong Yang, Jun Peng Shao, Ze Yang Yu
Yu: Journal of Donghua University (English Edition), Vol.30 (2013), pp.254-257
Yu: Journal of Harbin University of Science and Technology, Vol.18 (2013), pp.41-44
Shao: Key Engineering Materials, Vol. 579 (2014), pp.493-497
Shao: Applied Mechanics and Materials, Vol.274 (2013), pp. 274-277
Fan: Journal of Hydrodynamics, Vol.25 (2013) No.2, pp.236-241
Yu: Journal of Harbin University of Science and Technology, Vol.18 (2013), pp.41-44
Shao: Key Engineering Materials, Vol. 579 (2014), pp.493-497
Shao: Applied Mechanics and Materials, Vol.274 (2013), pp. 274-277
Fan: Journal of Hydrodynamics, Vol.25 (2013) No.2, pp.236-241
Online since: October 2013
Authors: Yang Cheng Xu, Jiao Li Hu, Cong Hai Tang, Feng Bao, Jie Gao, Tao Chen, Rui Ma
In consequence, composite microspheres prepared with the inorganic materials should have potential application prospect in the field of low-density proppant.
2.
Charging feed according to the formula materials table (Table 1), heating continued up to 70 °C with constant stirring for an hour, up to 80 °C for an hour, up to 90 °C for an hour.
A large number of studies have indicated that[3]: Nano inorganic materials add to the organic components, due to the interaction of table interface,lead to the polymer group vibration affected accordingly.
European Polymer Journal 40(8):1807 -1814
App lied Clay Science (5):11-19.
Charging feed according to the formula materials table (Table 1), heating continued up to 70 °C with constant stirring for an hour, up to 80 °C for an hour, up to 90 °C for an hour.
A large number of studies have indicated that[3]: Nano inorganic materials add to the organic components, due to the interaction of table interface,lead to the polymer group vibration affected accordingly.
European Polymer Journal 40(8):1807 -1814
App lied Clay Science (5):11-19.
Online since: December 2024
Authors: Asish Dahiya, Suman Chakraborty, Munna Pati
Abdalla ,”The Effect of Cooling Rate on the Microstructure of A356 Aluminium Alloy”, Svoa Materials Science & Technology, 2634-5331,Vol. 2(4)
[6] K.
Materials Science and Engineering A. 10.1016/j.msea.2022.144106
Abdalla ,”The Effect of Cooling Rate on the Microstructure of A356 Aluminium Alloy”, Svoa Materials Science & Technology, 2634-5331,Vol. 2(4) [13] K.
Sellamuthu, “The effect of section size on cooling rate, microstructure and mechanical properties of A356 aluminium alloy in casting”, Procedia Materials Science 5 (2014) 362-368 [14] Xiaoyan Wu, Huarui Zhang, Zhen Ma, Lina Jia, Hu Zhang, ”Effect of holding pressure on microstructure and mechanical properties of A356 aluminium alloy”, Journal of Materials Engineering and Performance 27(2), 483-491, 2018 [15] X Jian, H Xu, TT Meek, Qingyou Han, “Effect of power ultrasound on solidification of aluminium A356 alloy”, Materials letters 59 (2-3), 190-193,2005 [16] Zhang Xiao-li, Li Ting-ju, Xie Shui-sheng, Teng Hai-Tao, Jin Jun-ze, “Microstructure evolution of A356 alloy in a novel rheocasting approach”, Journals of materials processing technology 209(4), 2092-2098,2009 [17] E.
Zavaliangos: Materials Science and Engineering A, 289(1-2), pp. 228-240, (2000)
Materials Science and Engineering A. 10.1016/j.msea.2022.144106
Abdalla ,”The Effect of Cooling Rate on the Microstructure of A356 Aluminium Alloy”, Svoa Materials Science & Technology, 2634-5331,Vol. 2(4) [13] K.
Sellamuthu, “The effect of section size on cooling rate, microstructure and mechanical properties of A356 aluminium alloy in casting”, Procedia Materials Science 5 (2014) 362-368 [14] Xiaoyan Wu, Huarui Zhang, Zhen Ma, Lina Jia, Hu Zhang, ”Effect of holding pressure on microstructure and mechanical properties of A356 aluminium alloy”, Journal of Materials Engineering and Performance 27(2), 483-491, 2018 [15] X Jian, H Xu, TT Meek, Qingyou Han, “Effect of power ultrasound on solidification of aluminium A356 alloy”, Materials letters 59 (2-3), 190-193,2005 [16] Zhang Xiao-li, Li Ting-ju, Xie Shui-sheng, Teng Hai-Tao, Jin Jun-ze, “Microstructure evolution of A356 alloy in a novel rheocasting approach”, Journals of materials processing technology 209(4), 2092-2098,2009 [17] E.
Zavaliangos: Materials Science and Engineering A, 289(1-2), pp. 228-240, (2000)
Online since: October 2014
Authors: Pelin Yilmaz, Armando Marsden Lacerda, Steve Dunn, Igor Larrosa
The journal of physical chemistry.
Advanced Functional Materials 2010, 20, 1970–1976
Environmental science & technology 2005, 39, 3770–3775
ISRN Materials Science 2011, 2011, 1–18
Journal of Alloys and Compounds 2011, 509, 3419–3424
Advanced Functional Materials 2010, 20, 1970–1976
Environmental science & technology 2005, 39, 3770–3775
ISRN Materials Science 2011, 2011, 1–18
Journal of Alloys and Compounds 2011, 509, 3419–3424
Online since: April 2019
Authors: Francisco Casesnoves
Selected materials for model computational optimization.
Discussion and Conclusions Comparative computational optimization study of materials tribological characteristics was presented for materials-biomechanical applications/selection.
Science and Society.
Series: Journal of Physics: Conf.
Raw Materials and Circular Economy.
Discussion and Conclusions Comparative computational optimization study of materials tribological characteristics was presented for materials-biomechanical applications/selection.
Science and Society.
Series: Journal of Physics: Conf.
Raw Materials and Circular Economy.
Online since: August 2013
Authors: Fahad Irfan Siddiqui, Syed Baharom Syed Osman, Mohammad Yaakob Behan
Richard, "Electrical resistivity survey in soil science: a review," Soil and Tillage Research, vol. 83, pp. 173-193, 2005
Singh, "Artificial neural network models for predicting electrical resistivity of soils from their thermal resistivity," International Journal of Thermal Sciences, vol. 49, pp. 118-130, 2010
Asci, "Correlation between electrical resistivity and soil-water content: Istanbul and Golcuk," International Journal of Physical Sciences, vol. 4, pp. 362-365, 2009
Karabulut, "Correlation between electrical resistivity and soil-water content based artificial intelligent techniques," International Journal of Physical Sciences, vol. 5, pp. 47-56, 2010
Park, "Sensitivity of leachate and fine contents on electrical resistivity variations of sandy soils," Journal of Hazardous Materials, vol. 84, pp. 147-161, 2001
Singh, "Artificial neural network models for predicting electrical resistivity of soils from their thermal resistivity," International Journal of Thermal Sciences, vol. 49, pp. 118-130, 2010
Asci, "Correlation between electrical resistivity and soil-water content: Istanbul and Golcuk," International Journal of Physical Sciences, vol. 4, pp. 362-365, 2009
Karabulut, "Correlation between electrical resistivity and soil-water content based artificial intelligent techniques," International Journal of Physical Sciences, vol. 5, pp. 47-56, 2010
Park, "Sensitivity of leachate and fine contents on electrical resistivity variations of sandy soils," Journal of Hazardous Materials, vol. 84, pp. 147-161, 2001