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Online since: October 2014
Authors: Jie Ping Han, Qiu Yue Li, Jun Ming Chen
Designing ecological material flow Popularly speaking,steel industry producing process is the process of transforming iron ore into steel products,which is “iron raw material—process—steel products”.
Regarding waste gas and waste slag which are usually very cheap or even free as raw material or energy for the power plant and building materials factory producing,enterprises not only reduce the waste disposal cost,but also save the production cost.
(Jilin Province Social Science Fund 2013BS75, 2013BS76, 2014B213, 2014B213) Study of High Energy Consuming Industries Ecological Early Warning Counter measures in Jilin Province Based on Ecological System Theory The Ministry of education Social Science Fund(12YJA630035) ) References [1] Li Suqin,Cang Dajiang,Li Hong.
Industrial ecology at factory level e a conceptual model[J].Journal of Cleaner Production,2012,31:30-39 [4]Chao GU,Sebastien LEVENEUR,Lionel ESTEL,Adnan YASSINE.
The dynamics of industrial symbiosis: a proposal for a conceptual framework based upon a comprehensive literature review[J].Journal of Cleaner Production,2011,19(9/10):905-911
Regarding waste gas and waste slag which are usually very cheap or even free as raw material or energy for the power plant and building materials factory producing,enterprises not only reduce the waste disposal cost,but also save the production cost.
(Jilin Province Social Science Fund 2013BS75, 2013BS76, 2014B213, 2014B213) Study of High Energy Consuming Industries Ecological Early Warning Counter measures in Jilin Province Based on Ecological System Theory The Ministry of education Social Science Fund(12YJA630035) ) References [1] Li Suqin,Cang Dajiang,Li Hong.
Industrial ecology at factory level e a conceptual model[J].Journal of Cleaner Production,2012,31:30-39 [4]Chao GU,Sebastien LEVENEUR,Lionel ESTEL,Adnan YASSINE.
The dynamics of industrial symbiosis: a proposal for a conceptual framework based upon a comprehensive literature review[J].Journal of Cleaner Production,2011,19(9/10):905-911
Online since: December 2012
Authors: Rui Xu, Yuan Yuan Gao, Jin Zheng, Cui Fan
Current Opinion in solid state & Materials Science, vol. 2, pp. 584-587,1997
Journal of the Ceramic Society of Japan, vol. 108(1260), pp. 769-773, 2000
Journal of the Ceramic Socety of Japan, vol. 110(4), pp. 329-332, 2001
Materials Research Society, vol. 19(6), pp. 1669-1674, 2004
Journal of European Ceramic Society, vol. 24, pp. 507-510, 2004
Journal of the Ceramic Society of Japan, vol. 108(1260), pp. 769-773, 2000
Journal of the Ceramic Socety of Japan, vol. 110(4), pp. 329-332, 2001
Materials Research Society, vol. 19(6), pp. 1669-1674, 2004
Journal of European Ceramic Society, vol. 24, pp. 507-510, 2004
Online since: February 2011
Authors: Ying Hui Lv, Yan Zhen Yu
A derivative-free filled function method for non-linear inverse optimization of material parameters
LV Yinghui1,a, Yanzhen YU2,b
1,2School of Civil and Architectural Engineering; University of Jinan;
Jinan 250022, China
1lvyinghui_2010@163.com, 2cea_yuyz@ujn.edu.cn
Key words: non-linear analysis; filled function; derivative-free; dynamic;
Abstract: In solving non-linear inverse optimization problems, how to make sure one and only solution and cut down computational effort are two very representative challenges.
The application results of non-linear inverse analysis of material parameters for a practical engineering show that the derivative-free filled function method can quickly solve non-linear inverse problems with one and only solution, and it will be robust one in non-linear inverse solution field.
Journal of Computational and Applied mathematics, 191(2006), 269-279
Science,220 (1983),671-680
[6] Guang-yu He, Yong-li Gao: The aggregation of the common numerical algorithm in VisualFortran (Science Press, China 2002) [7] K.
The application results of non-linear inverse analysis of material parameters for a practical engineering show that the derivative-free filled function method can quickly solve non-linear inverse problems with one and only solution, and it will be robust one in non-linear inverse solution field.
Journal of Computational and Applied mathematics, 191(2006), 269-279
Science,220 (1983),671-680
[6] Guang-yu He, Yong-li Gao: The aggregation of the common numerical algorithm in VisualFortran (Science Press, China 2002) [7] K.
Online since: May 2012
Authors: Jun Rui Wu, Miao Cai, Miao Zhang, Shu Du, Ri Na Wu, Xi Qing Yue
Materials and Methods
Sampling of naturally fermented vegetables.
The main reason of the larger difference among of samples, maybe caused by that different sample with different nitrate content of raw materials and water, fermented temperature and time, advantage bacterium group.
Chinese Science Publisher.
Journal of China biological medicine, Vol. 23 (2002), p. 193
Xu: Journal of Chuxiong Normal University, in Chinese Vol. 18 (2003), p. 57-58
The main reason of the larger difference among of samples, maybe caused by that different sample with different nitrate content of raw materials and water, fermented temperature and time, advantage bacterium group.
Chinese Science Publisher.
Journal of China biological medicine, Vol. 23 (2002), p. 193
Xu: Journal of Chuxiong Normal University, in Chinese Vol. 18 (2003), p. 57-58
Online since: October 2008
Authors: Jin Ping Ou, Hui Li
Fernando: Smart Materials and Structures
Vol. 11 (2006), p. 302-308
[5] H.
Yao: Journal of Materials Science and Technology Vol. 20 (2004), p. 746-750 [11] H.
Chung: Materials Science and Engineering Vol. 22 (1998), p. 57-78 [15] Z.Q.
Ezquerra: Journal of Materials Science Vol. 23 (1998), p. 1411-1415 [34] P.K.
Saha: Journal of Materials Science Vol.25 (1990), p.3848-3853 [35] B.Q.
Yao: Journal of Materials Science and Technology Vol. 20 (2004), p. 746-750 [11] H.
Chung: Materials Science and Engineering Vol. 22 (1998), p. 57-78 [15] Z.Q.
Ezquerra: Journal of Materials Science Vol. 23 (1998), p. 1411-1415 [34] P.K.
Saha: Journal of Materials Science Vol.25 (1990), p.3848-3853 [35] B.Q.
Online since: May 2014
Authors: Kiet Tieu, Qiang Zhu, Ning Kong, Hong Tao Zhu
Materials and Experimental Procedures
Materials.
Journal of Materials Engineering and Performance, 2009. 18 (4): p. 378-384
Journal of Materials Processing Technology, 2001. 117: p. 293-299
Materials Science and Engineering A, 1998. 29: p. 84-90
Journal of Materials Processing Technology, 2006. 171: p. 301-305
Journal of Materials Engineering and Performance, 2009. 18 (4): p. 378-384
Journal of Materials Processing Technology, 2001. 117: p. 293-299
Materials Science and Engineering A, 1998. 29: p. 84-90
Journal of Materials Processing Technology, 2006. 171: p. 301-305
Online since: May 2023
Authors: Gabriel Ferro, Laurent Auvray, Jérôme Andrieux, Maria-Paz Alegre, Fernando Lloret, Daniel Araujo, Yamina Benamra, Marina Gutierrez, François Cauwet
Mawby, Microelectronics Journal 38 (2007) 1233–1237
Werheit, Solid State Sciences 86 (2018) 38–44
Brand, Materials Science and Engineering: B 79 (2001) 191–202
Wood, Journal of Crystal Growth 74 (1986) 210–216
Ferro, Critical Reviews in Solid State and Materials Sciences 40 (2015) 56–76
Werheit, Solid State Sciences 86 (2018) 38–44
Brand, Materials Science and Engineering: B 79 (2001) 191–202
Wood, Journal of Crystal Growth 74 (1986) 210–216
Ferro, Critical Reviews in Solid State and Materials Sciences 40 (2015) 56–76
Online since: July 2011
Authors: Ping Zhu, Rui Liang, Yue Xu, Hui Shen, Lin Zhuang
Nucleation Features of the Magnetite Fe3O4 Nanoparticles with the size of 30-40 nm for the Hyperthermia applications
Ping Zhu1, 2, a, Lin Zhuang1,b , Rui Liang1,c, Yue Xu2,d, and Hui Shen1,e
1 School of Physics and Engineering, Institute for Solar Energy Systems, State Key Laboratory of Optoelectronic Materials and Technologies, Sun Yat-sen University, Guangzhou 510275, P.
Acknowledgements This work has been supported by the Ministry of Education of the People’s Republic of China under Grant No. 20070558203 and Guangdong Science and Technology Department under Grant No. 2007B031505006.
References [1] Dilnawaz F, Singh A, Mohanty C, Sahoo SK: Biomaterials Vol. 31 (2010), p. 3694-3706 [2] Chomoucka J, Drbohlavova J, Huska D, Adam V, Kizek R, Hubalek J: Pharmacological Research Vol. 62 (2010), p. 144-149 [3] Lacroix LM, Ho D, Sun SH: Current Topics in Medicinal Chemistry Vol. 10 (2010), p. 1184-1197 [4] Thiesen B, Jordan A: Int J Hyperthermia Vol. 24 (2008), p. 467-474 [5] Latorre M, Rinaldi C: P R Health Sci J Vol. 28 (2009), p. 227-238 [6] Jin H, Kang KA: Adv Exp Med Biol Vol. 599 (2007), p. 45-52 [7] Hergt R, Dutz S: Journal of Magnetism and Magnetic Materials Vol. 311 (2007), p. 187–192 [8] Hergt R, Dutz S, Roder M: Journal of Physics: Condens Vol. 20 (2008), p. 385214 [9] Apostolova I, Wesselinowa JM: Phys.
Status Solidi B Vol. 246 (2009), p. 1925-1930 [10] Luo YD, Dai CA, Chiu WY: Journal of Applied Polymer Science Vol. 112 (2009), p. 975-984 [11] Yun C, Zhen Q, Zhicheng Z: Colloids and Surfaces A: Physicochemical and Engineering Aspects Vol. 312 (2008), p. 2-3 [12] Nishio K, Ikeda M, Gokon N, Tsubouchi S, Narimatsu H, Mochizuki Y, Sakamoto S, Sandhu A, Abe M, Handa H: Journal of Magnetism and Magnetic Materials Vol. 310 (2007), p. 2408-2410 [13] Muller R, Steinmetz H, Zeisberger M, Schmidt C, Dutz S, Hergt R, Gawalek W: Zeitschrift Fur Physikalische Chemie-International Journal of Research in Physical Chemistry and Chemical Physics Vol. 220 (2006), p. 51-57 [14] Zhang W, Gai LG, Li ZL, Jiang HH, Ma WY: J.
Acknowledgements This work has been supported by the Ministry of Education of the People’s Republic of China under Grant No. 20070558203 and Guangdong Science and Technology Department under Grant No. 2007B031505006.
References [1] Dilnawaz F, Singh A, Mohanty C, Sahoo SK: Biomaterials Vol. 31 (2010), p. 3694-3706 [2] Chomoucka J, Drbohlavova J, Huska D, Adam V, Kizek R, Hubalek J: Pharmacological Research Vol. 62 (2010), p. 144-149 [3] Lacroix LM, Ho D, Sun SH: Current Topics in Medicinal Chemistry Vol. 10 (2010), p. 1184-1197 [4] Thiesen B, Jordan A: Int J Hyperthermia Vol. 24 (2008), p. 467-474 [5] Latorre M, Rinaldi C: P R Health Sci J Vol. 28 (2009), p. 227-238 [6] Jin H, Kang KA: Adv Exp Med Biol Vol. 599 (2007), p. 45-52 [7] Hergt R, Dutz S: Journal of Magnetism and Magnetic Materials Vol. 311 (2007), p. 187–192 [8] Hergt R, Dutz S, Roder M: Journal of Physics: Condens Vol. 20 (2008), p. 385214 [9] Apostolova I, Wesselinowa JM: Phys.
Status Solidi B Vol. 246 (2009), p. 1925-1930 [10] Luo YD, Dai CA, Chiu WY: Journal of Applied Polymer Science Vol. 112 (2009), p. 975-984 [11] Yun C, Zhen Q, Zhicheng Z: Colloids and Surfaces A: Physicochemical and Engineering Aspects Vol. 312 (2008), p. 2-3 [12] Nishio K, Ikeda M, Gokon N, Tsubouchi S, Narimatsu H, Mochizuki Y, Sakamoto S, Sandhu A, Abe M, Handa H: Journal of Magnetism and Magnetic Materials Vol. 310 (2007), p. 2408-2410 [13] Muller R, Steinmetz H, Zeisberger M, Schmidt C, Dutz S, Hergt R, Gawalek W: Zeitschrift Fur Physikalische Chemie-International Journal of Research in Physical Chemistry and Chemical Physics Vol. 220 (2006), p. 51-57 [14] Zhang W, Gai LG, Li ZL, Jiang HH, Ma WY: J.
Online since: October 2012
Authors: Yan Li Jiang, Mei Tian, Jia Yao Liu, Li Juan Yang, Rui Hai Cui
Intorduction
ZnO is a very important wide bandgap semiconductor materials, with a direct bandgap of 3.37 eV at room temperature, a high exciton binding energy of 60 meV, excellent chemical and thermal stability and its specific electrical and optoelectronic property[1].
The principle of Sol-Gel method is mainly hydrolysis and condensation reaction of raw materials.
Experimental Materials and instruments.
Acknowledgement This work was supported by the Creative Talent Fund of Harbin Municipal Science and Technology (No. 2010RFQXG019)..
Radosz, Zn0 schottky ultraviolet photodetecors, Journal of Crystal Growth, 215(3) (2001) 110-113
The principle of Sol-Gel method is mainly hydrolysis and condensation reaction of raw materials.
Experimental Materials and instruments.
Acknowledgement This work was supported by the Creative Talent Fund of Harbin Municipal Science and Technology (No. 2010RFQXG019)..
Radosz, Zn0 schottky ultraviolet photodetecors, Journal of Crystal Growth, 215(3) (2001) 110-113