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Online since: December 2010
Authors: Sheng Rui Xu, Jin Hua Cheng, Xiao Ge Wang, Qin Shuai
L, Yang: Journal of Membrane Science.
C: Journal of Hazardous Materials.
Forum Vol. 82(2003), p. 2285 [12] Youngmin L, Aviva L and Shouheng S: Chemistry of Materials.
Zhu , et al.: Advanced Materials Research.
Sun: Journal of Environmental Sciences.
C: Journal of Hazardous Materials.
Forum Vol. 82(2003), p. 2285 [12] Youngmin L, Aviva L and Shouheng S: Chemistry of Materials.
Zhu , et al.: Advanced Materials Research.
Sun: Journal of Environmental Sciences.
Online since: February 2022
Authors: Irina A. Topolskaya, Andrey V. Brover, Galina I. Brover
After pulsed laser treatment, an increase in the hardness, wear resistance, heat resistance, and adhesive resistance of metal materials is achieved, which leads to an increase in the performance of hardened materials.
Schneider, Laser heat treatment of martensitic steel and dual-phase steel with high martensite content, Materials Science and Engineering: A. 752 (2019) 128-135
Ren, Microstructure and mechanical properties of a Ni-based superalloy after heat treatment in a steady magnetic field, Journal of Materials Processing Technology. 246 (2017) 176-184
Ren, Investigation on microstructure and creep properties of nickel based single crystal superalloys PWA1483 during heat treatment under an alternating magnetic field, Materials Science and Engineering: A. 762 (2019) 138087
Haipeng, Effect of pulsed magnetic field treatment on the residual stress of 20Cr2Ni4A steel, Journal of Magnetism and Magnetic Materials. 476 (2019) 218-224
Schneider, Laser heat treatment of martensitic steel and dual-phase steel with high martensite content, Materials Science and Engineering: A. 752 (2019) 128-135
Ren, Microstructure and mechanical properties of a Ni-based superalloy after heat treatment in a steady magnetic field, Journal of Materials Processing Technology. 246 (2017) 176-184
Ren, Investigation on microstructure and creep properties of nickel based single crystal superalloys PWA1483 during heat treatment under an alternating magnetic field, Materials Science and Engineering: A. 762 (2019) 138087
Haipeng, Effect of pulsed magnetic field treatment on the residual stress of 20Cr2Ni4A steel, Journal of Magnetism and Magnetic Materials. 476 (2019) 218-224
Online since: August 2014
Authors: A. N. Sadikin, R.R. Ali, N. Othman, Mohd Ghazali Mohd Nawawi
Over recent years, due to a strong prominence on environmental awareness worldwide, it has brought much attention in the development of environmentally sustainable filter materials.
Journal of Membrane Science, 2004. 243(1–2): p. 1-7
Journal of Hazardous Materials, 2007. 145(1–2): p. 36-44
Journal of Membrane Science, 2010. 364(1–2): p. 362-371
Journal of Wood Science, 2008. 54(1): p. 28-35.
Journal of Membrane Science, 2004. 243(1–2): p. 1-7
Journal of Hazardous Materials, 2007. 145(1–2): p. 36-44
Journal of Membrane Science, 2010. 364(1–2): p. 362-371
Journal of Wood Science, 2008. 54(1): p. 28-35.
Online since: August 2013
Authors: Wei De Lu, Zhan Qing Ma, Jun Feng Rao
Materials and Methods
Experimental Reagents.Sulfadiazine,sulfamerazine, sulfapyridine, the sulfa-6-between alloxan, sulfamethazine, Sulfamethoxine, Sulfamethoxypyridazine sodium, Sulfamethoxazole, sulfafurazole, and sulfaguanidine with concentration of 1000 mg / L were provided by Centre for disease prevention and control in Zhejiang Province.The experimental sodium hydroxide solution was preparedby of 50% sodium hydroxide stock solution.The other reagents were Reagents.
In order to prevent analyze time too long so that reducing the impact of post-peak material, the optimized eluent concentration was 14 mmol / L NaOH solution.
Food Science Vol. 30(2009),p. 294 [7] Zuoqing Li, Meilin Ni, Xuejun Yu, et al.
Journal of Instrumental Analysis Vol.26(2007),p.508“In Chinese” [8] Xiuling Ji, Ufang Li, Qunhui Shen, et al..Ecology and Environmental Sciences Vol.20(2011), p. 927 “In Chinese” [9] Xiaoping Li, Xiao-hong Chen, Micong Jin, et al.
Chinese Journal of Analysis Laboratory Vol.30(2011), p. 109“In Chinese”
In order to prevent analyze time too long so that reducing the impact of post-peak material, the optimized eluent concentration was 14 mmol / L NaOH solution.
Food Science Vol. 30(2009),p. 294 [7] Zuoqing Li, Meilin Ni, Xuejun Yu, et al.
Journal of Instrumental Analysis Vol.26(2007),p.508“In Chinese” [8] Xiuling Ji, Ufang Li, Qunhui Shen, et al..Ecology and Environmental Sciences Vol.20(2011), p. 927 “In Chinese” [9] Xiaoping Li, Xiao-hong Chen, Micong Jin, et al.
Chinese Journal of Analysis Laboratory Vol.30(2011), p. 109“In Chinese”
Online since: December 2011
Authors: Jiao Jiao Chen, Qing Song Zhang, Yi Ping Zhao, Li Chen, Wei Lai Zhang, Xiao Hong Liu, Kong Yin Zhao
Experimental Section
Materials.
Agnes, et al: Journal of colloid and interface science, Vol. 364 (2011), p. 18 [2] Z.P.
Li: Journal of Applied Polymer Science, Vol.122 (2011), p. 1847 [5] J.J.
Zou: Journal of Separation Science, Vol. 28 (2005), p. 2282 [6] B.
Antonio: Journal of chromatography.
Agnes, et al: Journal of colloid and interface science, Vol. 364 (2011), p. 18 [2] Z.P.
Li: Journal of Applied Polymer Science, Vol.122 (2011), p. 1847 [5] J.J.
Zou: Journal of Separation Science, Vol. 28 (2005), p. 2282 [6] B.
Antonio: Journal of chromatography.
Online since: May 2011
Authors: Ji Cheng He, Ting An Zhang, Zhi He Dou
This material has been widely used in metallurgy, wave-absorbing materials, cathode emission material, nuclear industry and so on[2,4] due to these properties.
Experimental Preparation of samples The following starting materials used were: (1)magnesium powder with the purity of 99% in the particle size range of 74 to 149µm; (2) B2O3 powder with the purity of 98% and the particle size smaller than 149 µm; (3) CeO2 powder with the purity of 99.5% and the particle size smaller than 149µm.The raw materials were weighed according to the following equation(1).
Journal of Northeastern University (Natural Science), Vol 25(1)(2004), p271, In Chinese
Journal of Inorganic materials.
Journal of Advanced Materials, Vol 36(2)(2004), p44.
Experimental Preparation of samples The following starting materials used were: (1)magnesium powder with the purity of 99% in the particle size range of 74 to 149µm; (2) B2O3 powder with the purity of 98% and the particle size smaller than 149 µm; (3) CeO2 powder with the purity of 99.5% and the particle size smaller than 149µm.The raw materials were weighed according to the following equation(1).
Journal of Northeastern University (Natural Science), Vol 25(1)(2004), p271, In Chinese
Journal of Inorganic materials.
Journal of Advanced Materials, Vol 36(2)(2004), p44.
Online since: January 2013
Authors: Francesco La Via, Patrick Fiorenza, Danilo Crippa, Ruggero Anzalone, Andrea Canino, Andrea Severino, Massimo Camarda, Carmelo Vecchio, Marco Mauceri, Grazia Litrico, Antonino Pecora, Antonino La Magna, Stefania Privitera
La Via Material Science Forum 679, 358 (2011)
[11] M.
Rodrigues Diamond and related materials 8, 295 (1999) [15] D.
Buss, Journal of Electronic Materials 27, 370 (1998) [23] A.
La Via Materials Science Forum 645, 555 (2010) [24] M.
La Via, Materials Science Forum 645, 283 (2010) [25] W.
Rodrigues Diamond and related materials 8, 295 (1999) [15] D.
Buss, Journal of Electronic Materials 27, 370 (1998) [23] A.
La Via Materials Science Forum 645, 555 (2010) [24] M.
La Via, Materials Science Forum 645, 283 (2010) [25] W.
Online since: July 2006
Authors: Kazuo Furuya, Shinji Kumai, Nobuhiro Ishikawa, Kwang Jin Lee
Interfacial microstructure of A6111/steel lap joint fabricated by
defocused laser beam welding
Kwang-Jin Lee1, a , Shinji Kumai
2,b
, Nobuhiro Ishikawa3,c and Kazuo Furuya4,d
1
Tokyo Institute of Technology, Nagatsuta, Midori-ku, Yokohama, 226-8502 Japan
2
Department of Materials Science and Engineering, Tokyo Institute of Technology, Nagatsuta,
Midori-ku, Yokohama, 226-8502 Japan
3
National Institute for Materials Science, Sakura, Tsukuba, 305-0003 Japan
4
National Institute for Materials Science, Sakura, Tsukuba, 305-0003 Japan
a
lee@materia.titech.ac.jp, bkumai@materia.titech.ac.jp, cISHIKAWA.Nobuhiro@nims.go.jp,
d
FURUYA.Kazuo1@nims.go.jp
Keywords: Aluminum alloy, steel, lap joint, laser welding, interfacial microstructure, intermetallic
compound, thermal history, growth behavior.
Materials and welding conditions.
The materials used in the present study were 1.2 mm thick plates of T4-treated A6111 aluminum alloy and 1.0 mm thick cold-rolled steel plates (SPCC).
Table 1 Chemical composition of base materials. mass % C Mn Si P S Cu Mg Fe Al SPCC 0.028 0.13 0.006 0.011 0.005 - - Bal. - A6111 - 0.19 0.63 - - 0.73 0.72 - Bal.
The focused ion beam (FIB) process, which uses a very finely controlled Ga ion beam, is useful for fabricating a thin foil of multi-layered materials for TEM observation.
Materials and welding conditions.
The materials used in the present study were 1.2 mm thick plates of T4-treated A6111 aluminum alloy and 1.0 mm thick cold-rolled steel plates (SPCC).
Table 1 Chemical composition of base materials. mass % C Mn Si P S Cu Mg Fe Al SPCC 0.028 0.13 0.006 0.011 0.005 - - Bal. - A6111 - 0.19 0.63 - - 0.73 0.72 - Bal.
The focused ion beam (FIB) process, which uses a very finely controlled Ga ion beam, is useful for fabricating a thin foil of multi-layered materials for TEM observation.
Online since: October 2013
Authors: Yan Jie Wei, Xiao Hui Wang, Guo Yi Li
Such as change the chemical composition of membrane to improve the chemical stability and the hydrophilic, or the combination of various materials together to make a new tape of membrane which have better performance.
Wang zhigao,Xing weihong ,Xu nanping.Resistance of fouling materials in bovine colostrums filtration via ceramic membrane process[J].Membrane science and technology.
Membrane science and technology.
JOURNAL OF NANJING UNIVERSITY OF TECHNOLOGY (Nature Science Edition).VOL. 65 (2003), p 1-5
JOURNAL OF NANJING UNIVERSITY OF TECHNOLOGY (Nature Science Edition) VOL. 6 (2008), p. 79-82
Wang zhigao,Xing weihong ,Xu nanping.Resistance of fouling materials in bovine colostrums filtration via ceramic membrane process[J].Membrane science and technology.
Membrane science and technology.
JOURNAL OF NANJING UNIVERSITY OF TECHNOLOGY (Nature Science Edition).VOL. 65 (2003), p 1-5
JOURNAL OF NANJING UNIVERSITY OF TECHNOLOGY (Nature Science Edition) VOL. 6 (2008), p. 79-82
Online since: May 2011
Authors: Ying Wen Wen
Cross-section of the composite sandwich column
materials of preparation.
Journal of Aeronautical Materials, 2003,(s1) [2] TAO Jia-qing , LIAO Guang-ming, FEN Ling-xiao.
Journal of Sichuan University (Engineering Science Edition. 2003,(02) [3] ZHANG Bo-ming, LIU Shuang.
Journal of Astronautics, 2007,(02)
Materials Science and Technology. 2008,(05) [5] ZHAO Jia-xiang.
Journal of Aeronautical Materials, 2003,(s1) [2] TAO Jia-qing , LIAO Guang-ming, FEN Ling-xiao.
Journal of Sichuan University (Engineering Science Edition. 2003,(02) [3] ZHANG Bo-ming, LIU Shuang.
Journal of Astronautics, 2007,(02)
Materials Science and Technology. 2008,(05) [5] ZHAO Jia-xiang.