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Online since: May 2023
Authors: Imad Hussein Kadhim, Huda Nagem Abd
[5] G Fang, Z Liu, X Ji, H Wang, KL Yao, Novel NO2-Sensing Properties of Sol–Gel-Derived SnO2–(Y2O3) Thin Films, Journal of Materials Science Letters,18(1999)639-641
Abu Hassan, Hydrogen Gas Sensing Based on SnO2 Nanostructure Prepared by Sol–Gel Spin Coating Method, Journal of Electronic Materials 46 (2017) 1419-1426
Chemistry of Materials 17.15 (2005) 3997-4000
Abu Hassan, Effects of glycerin volume ratios and annealing temperature on the characteristics of nanocrystalline tin dioxide thin films, Journal of Materials Science: Materials in Electronics 26 (2015) 3417-3426
Science 373, no. 6554 (2021): 561-567
Abu Hassan, Hydrogen Gas Sensing Based on SnO2 Nanostructure Prepared by Sol–Gel Spin Coating Method, Journal of Electronic Materials 46 (2017) 1419-1426
Chemistry of Materials 17.15 (2005) 3997-4000
Abu Hassan, Effects of glycerin volume ratios and annealing temperature on the characteristics of nanocrystalline tin dioxide thin films, Journal of Materials Science: Materials in Electronics 26 (2015) 3417-3426
Science 373, no. 6554 (2021): 561-567
Online since: September 2012
Authors: Xiao Yan Li, Xia Wang, Yuan Hui Han, Fan Fan, Zhi Yi Fu, Yan Chun Li
Experimental
Materials
SEBS3151: PS/EB=32/68, TSRC Corporation, Taiwan; Naphthenic oil, Shanghai DaLiang Chemical Co., Ltd., China; Diphenyl phosphate, WSFR-BDP, Phosphorus content (weight%)>8.9% , Zhejiang Wansheng Chemical Co., Ltd., China; Phosphorus and nitrogen IFR: HS219B, Phosphorus content 23-25%, Nitrogen content 24-26%, Kaifeng chemical industry science and technology development Co., Ltd., China.
European Polymer Journal 2011; 47:153–161
Fire Safety Journal 2009; 44:1010–1014
Chinese Journal of Applied Chemistry 2005;22(8):861-864
European Polymer Journal 2008;44(4):1023-1039.
European Polymer Journal 2011; 47:153–161
Fire Safety Journal 2009; 44:1010–1014
Chinese Journal of Applied Chemistry 2005;22(8):861-864
European Polymer Journal 2008;44(4):1023-1039.
Online since: January 2024
Authors: El Houssayne Bougayr, Azeddine Fantasse, Lakhal El Khadir, Ali Idlimam
Materials Today: Proceedings. 27(2020) 3021–3027
Journal of Materials and Environmental Science. 6 (6) (2015) 1692–1698 [4] L.
Journal of Materials and Environmental sciences. 6(9) (2015) 2520
Materials Today: Proceedings. 37 (2021) 1409–1416
Materials Today: Proceedings. 38 (2021) 371–377
Journal of Materials and Environmental Science. 6 (6) (2015) 1692–1698 [4] L.
Journal of Materials and Environmental sciences. 6(9) (2015) 2520
Materials Today: Proceedings. 37 (2021) 1409–1416
Materials Today: Proceedings. 38 (2021) 371–377
Online since: September 2014
Authors: Ján Petrovič, Peter Šugár, Jana Šugárová
In Journal of Materials Processing Technology.
Journal of Materials Processing Technology.
Journal of Materials Processing Technology, Vol. 211, 2011, pp. 2140 – 2151
Journal of Materials Processing Technology, Vol. 103, 2000, No.1, pp. 114 – 119
Journal of Materials Processing Technology, 159 (3), 2005, pp. 397 – 400
Journal of Materials Processing Technology.
Journal of Materials Processing Technology, Vol. 211, 2011, pp. 2140 – 2151
Journal of Materials Processing Technology, Vol. 103, 2000, No.1, pp. 114 – 119
Journal of Materials Processing Technology, 159 (3), 2005, pp. 397 – 400
Online since: October 2023
Authors: Sang You Kim, Yeong Jun Lee, Hao Cheng, Taeuk Lim, Jie Hu, Won Suk Jung
[2] Shah S, Ouyang C, Fracture mechanics for failure of concrete, Annual review of materials science, 24(1994)293-320
[4] Bin S, Li Z, Multi-scale modeling and trans-level simulation from material meso-damage to structural failure of reinforced concrete frame structures under seismic loading, Journal of Computational Science,12(2016)38-50
[5] Vijay K, Murmu M, Deo SV, Bacteria based self healing concrete–A review, Construction and building materials, 152(2017)1008-14
[10] Jonkers HM, Self healing concrete: a biological approach, Self healing materials: an alternative approach to 20 centuries of materials science, (2007)195-204
[11] Wang X, Sun P, Han N, Xing F, Experimental study on mechanical properties and porosity of organic microcapsules based self-healing cementitious composite, Materials, 10(2017)20
[4] Bin S, Li Z, Multi-scale modeling and trans-level simulation from material meso-damage to structural failure of reinforced concrete frame structures under seismic loading, Journal of Computational Science,12(2016)38-50
[5] Vijay K, Murmu M, Deo SV, Bacteria based self healing concrete–A review, Construction and building materials, 152(2017)1008-14
[10] Jonkers HM, Self healing concrete: a biological approach, Self healing materials: an alternative approach to 20 centuries of materials science, (2007)195-204
[11] Wang X, Sun P, Han N, Xing F, Experimental study on mechanical properties and porosity of organic microcapsules based self-healing cementitious composite, Materials, 10(2017)20
Online since: June 2012
Authors: Ce Zhou Zhao, Jing Jin Wu, Hong Cai Wu
Since there are no low cost transparent materials with such refractive index, a composite material of MgF2 and TiO2 is considered as an alternative solution.
MATLAB Simulation 1) Three Layer AR Coating Three materials, i.e.
Materials Science and Engineering R.
Japanese Journal of Applied Physics.
Japanese Journal of Applied Physics.
MATLAB Simulation 1) Three Layer AR Coating Three materials, i.e.
Materials Science and Engineering R.
Japanese Journal of Applied Physics.
Japanese Journal of Applied Physics.
Online since: March 2005
Authors: A. Fernández, J.A. Reglero, Miguel A. Rodríguez-Pérez, D. Lehmhus, M. Windmann, Jose A. de Saja
E., Log, T., Fire and Materials, 19 (43), 1995
Solid State & Materials Science 3:288-303. 1998
Progress in Materials Science 46, pp 559-632. 2001
Journal of Materials Processing Technology 131, pp 202-206. 2003.
Journal of Materials Science, 29, pp 486-498.1994
Solid State & Materials Science 3:288-303. 1998
Progress in Materials Science 46, pp 559-632. 2001
Journal of Materials Processing Technology 131, pp 202-206. 2003.
Journal of Materials Science, 29, pp 486-498.1994
Online since: June 2012
Authors: Haider F. Abdul Amir, Fuei Pien Chee
Monte Carlo Simulation of Alpha () Particles Penetration in nanoscale Silicon Semiconductor Materials
Haider F.
Abdul Amir a and Fuei Pien Cheeb School of Science and Technology, Universiti Malaysia Sabah, 88400 Kota Kinabalu, Sabah, Malaysia.
Since most of the energy is disposed by ionizations which cause a high density of free carriers during irradiation, the degradation in the silicon materials will be highly relying on the projected range of the incident ions.
Journal of Nuclear Instruments and Methods in Physics Research B 261 (2007), p.125-128
Nuclear Science, IEEE Transactions, 47 (6) (2000),p. 2528-2533
Abdul Amir a and Fuei Pien Cheeb School of Science and Technology, Universiti Malaysia Sabah, 88400 Kota Kinabalu, Sabah, Malaysia.
Since most of the energy is disposed by ionizations which cause a high density of free carriers during irradiation, the degradation in the silicon materials will be highly relying on the projected range of the incident ions.
Journal of Nuclear Instruments and Methods in Physics Research B 261 (2007), p.125-128
Nuclear Science, IEEE Transactions, 47 (6) (2000),p. 2528-2533
Online since: October 2010
Authors: Yong Xue, Zhi Min Zhang, Li Hui Lang
Effect of Forward Extrusion and Heat Treatment on Microstructure and Mechanical Properties of as-cast ZK60 Magnesium Alloy
Yong Xue 1, a, Zhimin Zhang 1, b, Lihui Lang 2, c
1 North University of China, School of Material Science and Engineering, 030051 Taiyuan, China
2 Beihang University, School of Mechanical Engineering and Automation, 100191 Beijing, China
a merryjukii@hotmail.com, b zhangzhimini@live.nuc.edu.cn, c forge54@163.com
Keywords: Plastic deformation, Microstructure, Mechanical properties, ZK60 Magnesium alloy
Abstract.
Experimental materials and methods Ingots of Mg-(5.0-6.0) wt% Zn-(0.3-0.9) wt% Zr with a diameter of 190mm were used in the present experiment.
Acknowledgements The present research is sponsored by National Natural Foundation of China (No.50735005, No.50605059), Shanxi Provincial Science Foundation for Youths of China (No.2007021026), and Development for Science and Technology in Higher Educational Institutes (No. 20081027).
References [1] H.Wantanabe, H.Tsutsui, and T.Mukai et al.: International Journal of Plasticity, Vol.17 (2001), p.387 [2] Galiyev, R.Kaibyshev: Materials Transactions, Vol.42 (2001), p.1190 [3] C.M.Liu, Z.J.Liu, and X.R.Zhu: The Chinese Journal of Nonferrous Metals, Vol.16 (2006), p.1 [4] X.Yu, P.D.Ding, and J.Peng: The Chinese Journal of Hot Working Technology, Vol. 3(2004), p.14 [5] J.Liu, Z.S.Cui, and C.X.LI: The Chinese Journal of Nonferrous Metals, Vol.18 (2008), p.1020 [6] D.Y.Maeng, T.S.Kim, and J.H.Lee et al.: Scripta Materialia, Vol.43 (2000), p.385 [7] Y.D.Yu, K.F.Zhang, and D.M.Jiang et al.: The Chinese Journal of Nonferrous Metals, Vol.13 (2003), p.71 [8] R.Lapovok, P.F.Thomson, R.Cottam, and Y.
Estrin: Materials Science and Engineering A, Vol.410-411(2005), p.390
Experimental materials and methods Ingots of Mg-(5.0-6.0) wt% Zn-(0.3-0.9) wt% Zr with a diameter of 190mm were used in the present experiment.
Acknowledgements The present research is sponsored by National Natural Foundation of China (No.50735005, No.50605059), Shanxi Provincial Science Foundation for Youths of China (No.2007021026), and Development for Science and Technology in Higher Educational Institutes (No. 20081027).
References [1] H.Wantanabe, H.Tsutsui, and T.Mukai et al.: International Journal of Plasticity, Vol.17 (2001), p.387 [2] Galiyev, R.Kaibyshev: Materials Transactions, Vol.42 (2001), p.1190 [3] C.M.Liu, Z.J.Liu, and X.R.Zhu: The Chinese Journal of Nonferrous Metals, Vol.16 (2006), p.1 [4] X.Yu, P.D.Ding, and J.Peng: The Chinese Journal of Hot Working Technology, Vol. 3(2004), p.14 [5] J.Liu, Z.S.Cui, and C.X.LI: The Chinese Journal of Nonferrous Metals, Vol.18 (2008), p.1020 [6] D.Y.Maeng, T.S.Kim, and J.H.Lee et al.: Scripta Materialia, Vol.43 (2000), p.385 [7] Y.D.Yu, K.F.Zhang, and D.M.Jiang et al.: The Chinese Journal of Nonferrous Metals, Vol.13 (2003), p.71 [8] R.Lapovok, P.F.Thomson, R.Cottam, and Y.
Estrin: Materials Science and Engineering A, Vol.410-411(2005), p.390
Online since: March 2011
Authors: Xu Da Qin, Qi Wang, H.Y. Wang
There are a series of active and effective researches on helical milling technology over home and abroad in the past few years.Wangyang Ni [1]studied on the machining dynamics of helical milling about aerospace aluminum alloy, titanium alloy and CFRP materials; R.
Acknowledgement This project is supported by Key Item of Sci-tech Supporting Plan in Tianjin ( 09ZCKFGX03300), National Natural Science Foundation of China (50705066) and Natural Science Foundation of Tianjin (08JCYBJC01300).
[3] B.Denkena,D.Boehnke,J.H.Dege:CIRP Journal of Manufacturing Science and Technology, Vol.1 (2008), pp. 64–69
Ji, et al:Key Engineering Materials. (2010), pp.431-432:346-350
[8] N.Kardes,Y.Altintas:Journal of Manufacturing Science and Engineering,Vol.129(2007),pp. 21-31
Acknowledgement This project is supported by Key Item of Sci-tech Supporting Plan in Tianjin ( 09ZCKFGX03300), National Natural Science Foundation of China (50705066) and Natural Science Foundation of Tianjin (08JCYBJC01300).
[3] B.Denkena,D.Boehnke,J.H.Dege:CIRP Journal of Manufacturing Science and Technology, Vol.1 (2008), pp. 64–69
Ji, et al:Key Engineering Materials. (2010), pp.431-432:346-350
[8] N.Kardes,Y.Altintas:Journal of Manufacturing Science and Engineering,Vol.129(2007),pp. 21-31