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Online since: September 2012
Authors: Shui Li Lai, Qiang Chai, Ying Hua Gao
All the raw materials were analytical purity that used directly unless specially noted.
The optimal synthetic conditions are as follows: microwave irradiation power, 300 W; radiation time, 2 mins; 50% neutralization degree of the AA; m(AA) : m(AM) : m(oxidized starch)= 5.0 : 3.3 : 3.4, weight ratio initiator in the feed is 0.4%, respectively Acknowledgements This project was supported by Natural Science Fund of Shaanxi province (2009JM2015) and the Graduate Innovation Fund of Shaanxi University of Science and Technology.
Wang: Journal of Lanzhou Jiao tong University Vol. 24(2005), p.52, in China [2] X.
Li: JOURNAL OF CHINA COAL SOCIETY Vol. 35 (2010), p. 1177, in China [4] W.
Wei: Journal of Anhui University of Science and Technology Vol. 28 (2008), p. 59 [7] N.
The optimal synthetic conditions are as follows: microwave irradiation power, 300 W; radiation time, 2 mins; 50% neutralization degree of the AA; m(AA) : m(AM) : m(oxidized starch)= 5.0 : 3.3 : 3.4, weight ratio initiator in the feed is 0.4%, respectively Acknowledgements This project was supported by Natural Science Fund of Shaanxi province (2009JM2015) and the Graduate Innovation Fund of Shaanxi University of Science and Technology.
Wang: Journal of Lanzhou Jiao tong University Vol. 24(2005), p.52, in China [2] X.
Li: JOURNAL OF CHINA COAL SOCIETY Vol. 35 (2010), p. 1177, in China [4] W.
Wei: Journal of Anhui University of Science and Technology Vol. 28 (2008), p. 59 [7] N.
Online since: August 2011
Authors: Lars Arnberg, Mohammed M'Hamdi, Eivind Øvrelid, Yacine Boulfrad, Gaute Stokkan
Modeling of lifetime distribution in a multicrystalline silicon ingot
Yacine Boulfrad1, a, Gaute Stokkan1,b , Mohammed M’hamdi2,c
Eivind Øvrelid3,d, Lars Arnberg1,e
1Department of Materials Science and Engineering, Norwegian University of Science and Technology, Alfred Getz v 2b. 7491 Trondheim, Norway.
2SINTEF Materials and Chemistry, Alfred Getz v 2b. 7491Trondheim, Norway.
3SINTEF Materials Technology, 0314 Oslo, Norway
ayacine.boulfrad@material.ntnu.no, bgaute.stokkan@material.ntnu.no, cmohammed.mhamdi@sintef.no, deivind.j.ovrelid@sintef.no, earnberg@ntnu.no
Keywords: Multicrystalline silicon, ingot, defects, iron, dislocations, lifetime
Abstract.
Applied Physics A (Materials Science Processing), 1999.
Applied Physics A: Materials Science & Processing, 2000. 70(5): p. 489-534
Journal of Applied Physics, 2007. 101(5): p. 053515-9
Journal of Applied Physics, 1998. 84(5): p. 2656-2664
Applied Physics A (Materials Science Processing), 1999.
Applied Physics A: Materials Science & Processing, 2000. 70(5): p. 489-534
Journal of Applied Physics, 2007. 101(5): p. 053515-9
Journal of Applied Physics, 1998. 84(5): p. 2656-2664
Online since: November 2012
Authors: Wen Feng Ding, Cheng Jie Song, Zhen Zhen Chen, Jiu Hua Xu
However, ceramic materials also have the characteristics of great brittleness, small toughness, poor impact resistance and anti-fatigue performance.
Materials and Manufacturing Processes, Vol. 23(3), (2008), p. 224
Key Engineering Materials, Vol. 359-360, (2008), p. 48
Journal of Materials Processing Technology, Vol. 116(2-3), 2001, p. 165
Journal of Manufacturing Science and Engineering, Vol. 123, (2001), p. 13
Materials and Manufacturing Processes, Vol. 23(3), (2008), p. 224
Key Engineering Materials, Vol. 359-360, (2008), p. 48
Journal of Materials Processing Technology, Vol. 116(2-3), 2001, p. 165
Journal of Manufacturing Science and Engineering, Vol. 123, (2001), p. 13
Online since: September 2013
Authors: Qin Yan Yue, Bao Yu Gao, Qian Li, Yan Wang, Dong Ting Yue
A new effective way to reuse sewage sludge is to produce lightweight ceramics, which can be used as construction materials or filter media [5-7].
Materials and methods Raw Materials.
The materials for production of sewage sludge ceramics (SSC) were clay and dried sludge.
After materials released all gases, the residual glassy phase still melted and the most of the inner pores were filled by viscous flow.
Chiou: Journal of Hazardous Materials Vol. 134 (2006) p. 87-93
Materials and methods Raw Materials.
The materials for production of sewage sludge ceramics (SSC) were clay and dried sludge.
After materials released all gases, the residual glassy phase still melted and the most of the inner pores were filled by viscous flow.
Chiou: Journal of Hazardous Materials Vol. 134 (2006) p. 87-93
Online since: June 2009
Authors: Hiroshi Yanagishita, Akira Endo, Hideyuki Negishi, Bao Wang Lu, Takao Ohmori, Ai Miyamoto, Kunihiro Watanabe, Keiji Sakaki
These materials are poor electrical conductors.
Yamada: Microporous and Mesoporous Materials Vol. 101 (2007), p. 303 [3] H.
Inagaki: Microporous and Mesoporous Materials Vol. 44-45 (2001), p. 755 [4] S.
Yanagishita: Key Engineering Materials Vol.314 (2006), p. 147 [6] A.
Vleugels: Journal of materials Science Vol. 39 (2004), p.779 [9] H.
Yamada: Microporous and Mesoporous Materials Vol. 101 (2007), p. 303 [3] H.
Inagaki: Microporous and Mesoporous Materials Vol. 44-45 (2001), p. 755 [4] S.
Yanagishita: Key Engineering Materials Vol.314 (2006), p. 147 [6] A.
Vleugels: Journal of materials Science Vol. 39 (2004), p.779 [9] H.
Online since: February 2011
Authors: Ting Li, Mao Fa Jiang, Yan Qing Lu, Guo Dong Zhang, Hai Xiao Liu
Effects of Li2CO3 on Properties of Mould Flux for High Speed
Continuous Casting
Lu Yanqing1,2,a Zhang Guodong1 Jiang Maofa2 Liu Haixiao1 Li Ting1
1School of Materials and Metallurgy, University of Science and Technology Liaoning, China
2School of Materials and Metallurgy, Northeastern University, China
aluyanqing77@163.com
Keywords: high speed continuous casting, mould flux, property, Li2CO3
Abstract: The effects of Li2CO3 on melting temperature, viscosity, fluidity, surface tension and Al2O3 inclusion adsorption of mould flux for high speed continuous casting were studied.
Acknowledgement The present work is supported by Liaoning province Natural Science Foundation under grant No. 20082190, and the science and technology funds from Liaoning Province Education Department under grant No. 2009T051.
Zhu: Journal of Iron and Steel Research, Vol. 12 (2000), p. 46 [2] C.J.
Zhu: Journal of Iron and Steel Research, Vol. 11 (2001), p. 42
[3] Pinheiro C A, Samarasekera I V, Brimacombe J K: Journal of Iron and Steel Maker, Vol. 22 (1995), p. 45
Acknowledgement The present work is supported by Liaoning province Natural Science Foundation under grant No. 20082190, and the science and technology funds from Liaoning Province Education Department under grant No. 2009T051.
Zhu: Journal of Iron and Steel Research, Vol. 12 (2000), p. 46 [2] C.J.
Zhu: Journal of Iron and Steel Research, Vol. 11 (2001), p. 42
[3] Pinheiro C A, Samarasekera I V, Brimacombe J K: Journal of Iron and Steel Maker, Vol. 22 (1995), p. 45
Online since: July 2014
Authors: Hui Ping Shao, Zi Fen Zhao, Sen Sun
New chemical materials, 36 (2) (2008)47-49
Journal of China University of Mining & Technology, 18(2008)634-636
Environmental Science and Technology, 27(2004) 159-162
International Journal of Mineral Processing, 31(3) (1991)195-216
Journal of Yanshan University, 36(3) (2012)145-148
Journal of China University of Mining & Technology, 18(2008)634-636
Environmental Science and Technology, 27(2004) 159-162
International Journal of Mineral Processing, 31(3) (1991)195-216
Journal of Yanshan University, 36(3) (2012)145-148
Online since: October 2017
Authors: Lydia Anggraini
Yang: Journal of Materials Processing Technology, Vol. 113(1), (2001), pp. 521-526
Fong: Journal of Materials Processing Technology, Vol. 38(1-2), (1993), pp. 221-225
Dahar: Materials Science Forum, Vol. 872, (2016), pp. 50-54
Shaw: Journal of Magnetism and Magnetic Materials, Vol. 303(1), (2006), pp. 153-159
Kagaya: Materials Science & Engineering A, Vol. 574, (2013), pp. 197-204.
Fong: Journal of Materials Processing Technology, Vol. 38(1-2), (1993), pp. 221-225
Dahar: Materials Science Forum, Vol. 872, (2016), pp. 50-54
Shaw: Journal of Magnetism and Magnetic Materials, Vol. 303(1), (2006), pp. 153-159
Kagaya: Materials Science & Engineering A, Vol. 574, (2013), pp. 197-204.
Online since: January 2012
Authors: A.N.Md Idriss, S. Mridha, T.N. Baker
West, Journal of Materials Science Letters, 10(19) (1991) p. 1149
Baker, Journal of Materials Processing Technology, 2007. 185(1-3): p. 38
Cheang, Journal of Materials Processing Technolog, 113 (2001) p. 516
Wang et al., Materials Science and Engineering: A, 441(1-2) (2006) p. 60
Mridha, Materials Science and Technology, 10 (1994) p.536.
Baker, Journal of Materials Processing Technology, 2007. 185(1-3): p. 38
Cheang, Journal of Materials Processing Technolog, 113 (2001) p. 516
Wang et al., Materials Science and Engineering: A, 441(1-2) (2006) p. 60
Mridha, Materials Science and Technology, 10 (1994) p.536.
Online since: June 2004
Authors: Satoru Ohshima, Yoichi Okui, Shigehiro Nishino, Taro Nishiguchi, A. Shoji
Journal Title and Volume Number (to be inserted by the publisher) 3
Pendeo-epi on (111) Substrates.
Linthicum and P.Rajagopal: Materials Science Forum Vols. 338-342 (2000), p.1471
Mishira: Materials Internet Journal - Nitride Semiconductor Research 3 (1998), p. 3 [4] S.E.
Jones : Materials Science Forum Vols. 338-342 (2000), p. 245
Nishino: Materials Science Forum Vols. 389-393 (2002), p.331
Linthicum and P.Rajagopal: Materials Science Forum Vols. 338-342 (2000), p.1471
Mishira: Materials Internet Journal - Nitride Semiconductor Research 3 (1998), p. 3 [4] S.E.
Jones : Materials Science Forum Vols. 338-342 (2000), p. 245
Nishino: Materials Science Forum Vols. 389-393 (2002), p.331