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Online since: March 2013
Authors: Ding Yi Zhu, Hai Jun Liu, Xian Peng, Zhen Ming Hu, Ming Jie Wang
Dynamic Strain Aging in the Fe-Mn-Cu-C TWIP Steels
Liu Haijun 1,a, Zhu Dingyi1,b, Peng Xian1, Hu Zhenming2, Wang Mingjie1,3
1.College of Materials Science and Engineering , Fuzhou University, Fuzhou 350108, China;
2.
Sansteel MinGuang Co LTD, Sanming 356000, China; 3.Department of Materials Science and Engineering, Fujian University of Technology, Fuzhou 350108, China.
Material and Metallurgical Engineering[J], 2012, 399-401: 233-239. ].
Journal of Materials Processing Technology[J], 2012,212: 46-58. ].
Journal of Fujian University of Technology[J], 2003,1(1): 4-8. ].
Sansteel MinGuang Co LTD, Sanming 356000, China; 3.Department of Materials Science and Engineering, Fujian University of Technology, Fuzhou 350108, China.
Material and Metallurgical Engineering[J], 2012, 399-401: 233-239. ].
Journal of Materials Processing Technology[J], 2012,212: 46-58. ].
Journal of Fujian University of Technology[J], 2003,1(1): 4-8. ].
Online since: November 2007
Authors: José Carlos Bressiani, Ana Helena A. Bressiani, Christiane Ribeiro
Bressiani 1, c
1 Materials Technology and Science Center - CCTM, Nuclear and Energy Research Institute -
IPEN - Av.
Materials and Methods To prepare the suspensions, 69 wt% of solids in the form of β-TCP (Fluka) and ovalbumin (Schettert) powder were used.
Journal European Ceramics Society . 24, (2004), p. 579-587
Fratzl..Materials Science and Engineering C 25, (2005), p. 181-186 [3] R.
Bressiani, Materials Science Forum, 530-531, (2006), p. 587- 592
Materials and Methods To prepare the suspensions, 69 wt% of solids in the form of β-TCP (Fluka) and ovalbumin (Schettert) powder were used.
Journal European Ceramics Society . 24, (2004), p. 579-587
Fratzl..Materials Science and Engineering C 25, (2005), p. 181-186 [3] R.
Bressiani, Materials Science Forum, 530-531, (2006), p. 587- 592
Online since: August 2016
Authors: Jian Yun He, Yu Mei Ding, Wei Jia Kang, Zhen Wen Liu, Peng Cheng Xie, Xi Dan Luo
Therefore, much research need to been done to improve the property of waterborne UV-curable polyurethane acrylate materials.
Journal of Functional Polymers, 1999,12(3):285-288.
Journal of Suzhou University: Natural Science, 2000,16(2):66-71.
Waterborne UV Curable Materials.
Chinese Journal of Materials Research. 2000,14(1):109-112.
Journal of Functional Polymers, 1999,12(3):285-288.
Journal of Suzhou University: Natural Science, 2000,16(2):66-71.
Waterborne UV Curable Materials.
Chinese Journal of Materials Research. 2000,14(1):109-112.
Online since: October 2016
Authors: Shi Chao Xiu, Xiu Ming Zhang, Xiao Liang Shi, Li Juan Liu
Influences on Material Strength.
Acknowledgments This research work was financially supported by the National Natural Science Foundation of China (51375083) and Science and technology project of Shenyang City (Grant No.
References [1] C.Guo, S.Malkin, Heat Transfer in Grinding, Journal of Materials Processings and manufacturing Science. 1992, 1(1), pp.16-27
[5] W.K.Bogdan, W.Ryszard, Residual Stress in Grinding, Journal of Materials Processing Technology, 2001. 109(3), pp.254-257
[7] S.C.Xiu, S.X.Yuan, G.Q.Cai, Researches on Effect of Impact Micro-damages in Contact Layer on Machinability in Quick-point Grinding, Key Engineering Materials, 2009,389/390, pp.229-234.
Acknowledgments This research work was financially supported by the National Natural Science Foundation of China (51375083) and Science and technology project of Shenyang City (Grant No.
References [1] C.Guo, S.Malkin, Heat Transfer in Grinding, Journal of Materials Processings and manufacturing Science. 1992, 1(1), pp.16-27
[5] W.K.Bogdan, W.Ryszard, Residual Stress in Grinding, Journal of Materials Processing Technology, 2001. 109(3), pp.254-257
[7] S.C.Xiu, S.X.Yuan, G.Q.Cai, Researches on Effect of Impact Micro-damages in Contact Layer on Machinability in Quick-point Grinding, Key Engineering Materials, 2009,389/390, pp.229-234.
Online since: June 2014
Authors: Zhi Rong Wang, Wei Li Wang, Xiao Yan Zhu, Jing Lan Wang, Zhi Jie Han, Ya Hua
Vol. 34 (2005), p.469
[3] X M Rong, Q Y Huang, W L Chen: Acta Ecologica Sinica.Vol. 28(2008), p.376 In Chinese
[4] M F DeFlaun, C W Condee: Journal of Hazardous Materials.
Vol. 28(1997), p.263 [5] J Diaz, M Rendueles, M Diaz: Environmental Science and Pollution Research.
Vol. 33(2013) ,p. 67 In Chinese [18] C Aharoni, S Levinson, I Ravina, et al: Soil Science Society of America Journal.
Vol.55( 1991), p.1307 [19] B H Hameed, D K Mahmoud, A L Ahmad: Journal of Hazardous Materials.
Vol. 158(2008), p.65 [20] H H Jia,B P Han,W X Ma, et al: Environmental Science & Technology.Vol.34 (2011),p.43 In Chinese [21] B K G Theng, V A Orchard: Interactions of clay with microorganisms and bacterial survival in soil: A physicochemical perspective(CRC Press, Florida1995) [22] A Khaled, A Nemr, A El-Sikaily, et al: Journal of Hazardous Materials.
Vol. 28(1997), p.263 [5] J Diaz, M Rendueles, M Diaz: Environmental Science and Pollution Research.
Vol. 33(2013) ,p. 67 In Chinese [18] C Aharoni, S Levinson, I Ravina, et al: Soil Science Society of America Journal.
Vol.55( 1991), p.1307 [19] B H Hameed, D K Mahmoud, A L Ahmad: Journal of Hazardous Materials.
Vol. 158(2008), p.65 [20] H H Jia,B P Han,W X Ma, et al: Environmental Science & Technology.Vol.34 (2011),p.43 In Chinese [21] B K G Theng, V A Orchard: Interactions of clay with microorganisms and bacterial survival in soil: A physicochemical perspective(CRC Press, Florida1995) [22] A Khaled, A Nemr, A El-Sikaily, et al: Journal of Hazardous Materials.
Online since: October 2011
Authors: Mohd Nor Asiah, M.F. Achoi, Saifollah Abdullah, Mohamad Rusop
Siclovan:Solar Energy Materials & Solar Cells Vol. 90 (2006), p- 1041
[3] M.
Adachi:Materials Letters Vol. 58 (2004), p. 3915 [5] H.
Rusu :Applied Surface Science Vol. 156 (2000), p. 200 [7] M.
Zhang: Journal Raman Spectroscopy Vol. 32 (2001), p 862 [10] G.A.
Seakins, Journal Raman Spectroscopy Vol. 26 (1995), p. 57
Adachi:Materials Letters Vol. 58 (2004), p. 3915 [5] H.
Rusu :Applied Surface Science Vol. 156 (2000), p. 200 [7] M.
Zhang: Journal Raman Spectroscopy Vol. 32 (2001), p 862 [10] G.A.
Seakins, Journal Raman Spectroscopy Vol. 26 (1995), p. 57
Online since: November 2011
Authors: Xue Gong, Jiang Chang, Zhi Hui Sun
Introduction
Regeneration pre-sensitized offset plate which had excellent performance and wide application was made by used plate recycled again after processing system.This plate was a green printing material.It could fully recycling used the metal aluminum, reduce production cost.
Materials and methods Materials.
Journal of Nanjing Forestry University: Natural Sciences Edition,2005, 29(6): 91-94
Wang: Journal of Wood Science Vol. 51 (2005), 7
Nakao: Wood Science and Technology Vol. 39 (2005),439.
Materials and methods Materials.
Journal of Nanjing Forestry University: Natural Sciences Edition,2005, 29(6): 91-94
Wang: Journal of Wood Science Vol. 51 (2005), 7
Nakao: Wood Science and Technology Vol. 39 (2005),439.
Online since: June 2012
Authors: Jong Oh Kim, Won Youl Choi, Yong Woo Lee
Removal of Isopropyl alcohol (IPA) using Anodized Photocatalytic Metal Membrane Reactor
Jong-Oh Kim1,a , Won-Youl Choi2,b and Yong-Woo Lee3,c
1Department of Civil Engineering, Gangneung–Wonju National University, Gangneung Daehangno 120, Gangneung, Gangwon-do, 210-702, Korea
2Department of Metal and Materials Engineering, Gangneung–Wonju National University, Gangneung Daehangno 120, Gangneung, Gangwon-do, 210-702, Korea
3Department of Applied Chemistry, Hanyang University, 1271 Sa 1-dong, Sangnok-gu, Ansan, Gyunggi-do, 426-791, Korea
a jokim@gwnu.ac.kr, bcwy@gwnu.ac.kr, cyongwoolee@hanyang.ac.kr
Keywords: Anodized Photocatalytic Metal Membrane Reactor, IPA, TiO2, Electric Wastewater
Abstract.
Acknowledgements This work was supported by Basic Science Research Program through National Research Foundation of Korea (NRF) funded by the Ministry of Education, Science and Technology (2011-0013792) and partially supported by the Eco-Innovation project of the Ministry of Environment.
[2] Vincenzo Augugliaro, Marta Litter, Leonardo Palmisano, Javier Soria: Journal of Photochemistry and Photobiology C, Vol. 7, (2006), p. 127-144
[3] Jianfeng Fu, Min Ji, Zheng Wang, Lounan Jin, Dingnian An: Journal of Hazardous Materials B, Vol.131, (2006), p. 238-242
[4] Ramesh Thiruvenkatachari, Tae ouk Kwon, Il Shik MoonKorean Journal of Chemical Engineering ,Vol. 22, (2005), p.938-944
Acknowledgements This work was supported by Basic Science Research Program through National Research Foundation of Korea (NRF) funded by the Ministry of Education, Science and Technology (2011-0013792) and partially supported by the Eco-Innovation project of the Ministry of Environment.
[2] Vincenzo Augugliaro, Marta Litter, Leonardo Palmisano, Javier Soria: Journal of Photochemistry and Photobiology C, Vol. 7, (2006), p. 127-144
[3] Jianfeng Fu, Min Ji, Zheng Wang, Lounan Jin, Dingnian An: Journal of Hazardous Materials B, Vol.131, (2006), p. 238-242
[4] Ramesh Thiruvenkatachari, Tae ouk Kwon, Il Shik MoonKorean Journal of Chemical Engineering ,Vol. 22, (2005), p.938-944
Online since: November 2011
Authors: Yue Qiong Wang, Shuang Quan Liao, Zheng Peng, Kui Xu, Yong Yue Luo, Can Zhong He
Experimental
Materials
The high ammonia natural rubber latex concentrate with a dry rubber content of 60% was produced in Hainan Province, PR China.
European Polymer Journal.17(11), 1073-1077 (1981). 2 Gelling I R; Tinker A J; Haidzer A.
Journal of Natural Rubber Research. 6(1), 20. (1991) 3 Gelling I.
Rubber Chemistry and Technology 58(1), 86-97 (1985). 4 Cook, S., Materials world. 17, 30 (2009). 5 Gelling I R, Tinker A J & Haidzer A.
Journal of Natural Rubber Research. 6(1), 20 (1991). 6 Ng S.C & Gan, L.
European Polymer Journal.17(11), 1073-1077 (1981). 2 Gelling I R; Tinker A J; Haidzer A.
Journal of Natural Rubber Research. 6(1), 20. (1991) 3 Gelling I.
Rubber Chemistry and Technology 58(1), 86-97 (1985). 4 Cook, S., Materials world. 17, 30 (2009). 5 Gelling I R, Tinker A J & Haidzer A.
Journal of Natural Rubber Research. 6(1), 20 (1991). 6 Ng S.C & Gan, L.
Online since: November 2013
Authors: Ting Juan Yi, Yu Jun Zhou, Wen Li Wang
Experimental verification and theoretical analysis of silk dyeing and finishing performance with modified natural tea polyphenols dye were made.
1 Introduction
Tea polyphenols (TP) are widely used in different fields such as medical science, biology, cosmetics, bromatology, chemical materials and so on.
Compared to other nanosized metal oxides, ZnO is easily available and the added advantage of ZnO is that it is one of environmental stability materials and low cost.
Acid Yellow 23 by ZnO photocatalyst, Journal of Hazardous Materials 133(1-3), (2006)226-232
[8] Girish Kumar, Ahmad Umar, ZnO nano-mushrooms for photocatalytic degradation of methyl orange Rajesh, Materials Letters 97, (2013)100-103
Stephen, Enhanced photocatalytic activity of ZnO/CuO nanocomposite for the degradation of textile dye on visible light illumination, Materials Science and Engineering C 33, (2013) 91-98.
Compared to other nanosized metal oxides, ZnO is easily available and the added advantage of ZnO is that it is one of environmental stability materials and low cost.
Acid Yellow 23 by ZnO photocatalyst, Journal of Hazardous Materials 133(1-3), (2006)226-232
[8] Girish Kumar, Ahmad Umar, ZnO nano-mushrooms for photocatalytic degradation of methyl orange Rajesh, Materials Letters 97, (2013)100-103
Stephen, Enhanced photocatalytic activity of ZnO/CuO nanocomposite for the degradation of textile dye on visible light illumination, Materials Science and Engineering C 33, (2013) 91-98.