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Online since: July 2015
Authors: Mohd Halim Irwan Ibrahim, Ali Ourdjini, Saliza Azlina
Journal of Electronic Materials (2011)
Journal of Electronic Materials.
ProQuest Science Journals, 35 (2006) 1017
Materials Letters. 65(2011) 3216–3218 [13] Huang, Z.F., Conway, P.P, Jung, E., Thomson, R.C, Liu, C.Q, and Loeher T..
Journal of Electronic Materials. 35(2006)1761-1772.
Journal of Electronic Materials.
ProQuest Science Journals, 35 (2006) 1017
Materials Letters. 65(2011) 3216–3218 [13] Huang, Z.F., Conway, P.P, Jung, E., Thomson, R.C, Liu, C.Q, and Loeher T..
Journal of Electronic Materials. 35(2006)1761-1772.
Online since: January 2022
Authors: Pavan Chandrasekar, Dhanya Sathyan, Anjala Nourin, Addepalli Sri Naga Bhushana Aravind Gupta, Bavineni Venkata Jyoshna
International Journal of Mining Science and Technology
Journal of Materials in Civil Engineering, 30(9), 04018221
Materials Journal, 98(5), 394-401
Construction and Building Materials, 25(11), 4105-4111
Construction and Building Materials, 23(2), 910-917
Journal of Materials in Civil Engineering, 30(9), 04018221
Materials Journal, 98(5), 394-401
Construction and Building Materials, 25(11), 4105-4111
Construction and Building Materials, 23(2), 910-917
Online since: July 2011
Authors: Xi Qin Wang, Bo Yu
This study made full use of industrial spent bleaching clay (SBC) to replace cottonseed hull, wheat bran and other costly traditional cultural materials for shimeji production.
Experimental Materials and Methods Experimental strains.
Experimental materials.
The main raw materials for the experiment included cottonseed hull, wheat bran, thick wood shavings, lime, SBC, etc.
Since 2008, the prices of cottonseed hull, wheat bran and other raw and semi-finished materials of edible medium have been persistently high.
Experimental Materials and Methods Experimental strains.
Experimental materials.
The main raw materials for the experiment included cottonseed hull, wheat bran, thick wood shavings, lime, SBC, etc.
Since 2008, the prices of cottonseed hull, wheat bran and other raw and semi-finished materials of edible medium have been persistently high.
Online since: March 2014
Authors: Rui Zhang, Xiao Xuan Pian, Hao Chen, Bing Bing Fan, Xin Zhang
Preparation of α-Al2O3 Powder by Microwave Pyrolysis
Hao Chen1a, Bingbing Fan1b, Xin Zhang1c, Xiaoxuan Pian 1d, Rui Zhang1,2*
1School of Materials Science and Engineering, Zhengzhou University, Henan, 450001, P.R.
Materials scientists showed a lot of interest in sol-gel method to prepare high purity α-Al2O3 powder.
Experimental Al2(SO4)3 and (NH4)2SO4 raw materials were commercially available to prepare AlNH4(SO4)2•12H2O precursor.
Hu, Preparation of plate-like nano α-Al2O3 using nano-aluminum seeds by wet-chemical methods, Materials Science and Engineering: A 406 (1–2) (2005) 19-23
Clark, UNIQUE APPLICATION OF MICROWAVE-ENERGY TO THE PROCESSING OF CERAMIC MATERIALS, J.
Materials scientists showed a lot of interest in sol-gel method to prepare high purity α-Al2O3 powder.
Experimental Al2(SO4)3 and (NH4)2SO4 raw materials were commercially available to prepare AlNH4(SO4)2•12H2O precursor.
Hu, Preparation of plate-like nano α-Al2O3 using nano-aluminum seeds by wet-chemical methods, Materials Science and Engineering: A 406 (1–2) (2005) 19-23
Clark, UNIQUE APPLICATION OF MICROWAVE-ENERGY TO THE PROCESSING OF CERAMIC MATERIALS, J.
Online since: November 2012
Authors: Ying Dong Qu, Rong De Li, Run Xia Li, Rui Ming Su
Zhang, Journal of Materials Science 39 (2004) 4719-4720
Beerntsen, Metallurgical and Materials Transactions A 26A (1995) 2481-2484
Yue, Journal of Materials Science 25 (1990) 175-182
Starink, Metallurgical and Materials Transactions A 33A (2002) 1125-1136
Holme, Metallurgical and Materials Transactions A 31A (2000) 339-348
Beerntsen, Metallurgical and Materials Transactions A 26A (1995) 2481-2484
Yue, Journal of Materials Science 25 (1990) 175-182
Starink, Metallurgical and Materials Transactions A 33A (2002) 1125-1136
Holme, Metallurgical and Materials Transactions A 31A (2000) 339-348
Online since: September 2007
Authors: Jie Cai Han, Ye Zhu, Qiang Zhang, Gaohui Wu
Materials and Experimental
Materials preparation.
Geiger and Michael Jackson: Advanced Materials & Process Vol. 136 (1989) p. 23-28 [2] S.
Keck: Journal of Materials Science Vol. 26 (1991) p. 447-454 [5] S.
Pask: Journal of Materials Science Vol.12 (1977) p. 223-233 [7] C.
Pamies: Journal of Materials Science Vol. 21 (1986) p. 2787-2792 [8] Soo-Han Park, Bo-Young Hur and Sang-Youl Kim: Proceedings of the 65th World Foundry Congress Gyeongju, Korea (2002) p.515-518 (a) (b) (c) (d)
Geiger and Michael Jackson: Advanced Materials & Process Vol. 136 (1989) p. 23-28 [2] S.
Keck: Journal of Materials Science Vol. 26 (1991) p. 447-454 [5] S.
Pask: Journal of Materials Science Vol.12 (1977) p. 223-233 [7] C.
Pamies: Journal of Materials Science Vol. 21 (1986) p. 2787-2792 [8] Soo-Han Park, Bo-Young Hur and Sang-Youl Kim: Proceedings of the 65th World Foundry Congress Gyeongju, Korea (2002) p.515-518 (a) (b) (c) (d)
Online since: August 2014
Authors: Radomír Sokolař, Mikuláš Šveda, Lucie Vodová
Table 1: Composition of raw materials mixtures
Mixture no.
A., Acchar W.: Applied Clay Science.
Journal of Materials Processing Technology, 2003, vol. 143-144, p. 843-845.
[5] Acchar, W., Vieira, F.A., Hotza, D.: Materials Science and Engineering.
Soares, T., M., Sánchez, R., Monteiro, S., N.: Materials science and Engineering.
A., Acchar W.: Applied Clay Science.
Journal of Materials Processing Technology, 2003, vol. 143-144, p. 843-845.
[5] Acchar, W., Vieira, F.A., Hotza, D.: Materials Science and Engineering.
Soares, T., M., Sánchez, R., Monteiro, S., N.: Materials science and Engineering.
Online since: January 2010
Authors: Azdiar Gazder, Sujoy S. Hazra, Elena V. Pereloma
Titchener, Progress in Materials Science 17 (1973) 5-177
Humbeek, Materials Science Forum 467-470 (2004) 1295-1300
Zehetbauer, Materials Science and Engineering: A 493 (2008) 116-122
Zehetbauer, Materials Science and Engineering: A 410-411 (2005) 169-173
Wang, Journal of Materials Engineering and Performance 8 (1999) 641-648
Humbeek, Materials Science Forum 467-470 (2004) 1295-1300
Zehetbauer, Materials Science and Engineering: A 493 (2008) 116-122
Zehetbauer, Materials Science and Engineering: A 410-411 (2005) 169-173
Wang, Journal of Materials Engineering and Performance 8 (1999) 641-648
Online since: September 2013
Authors: Zhi Jun He, Zhi Gang Guan
Energy Balance Analysis of No.1 Sinter Machine at Baosteel
Zhigang GUAN 1,a, Zhijun HE 2,b
1College of Application Technology,University of Science and Technology Liaoning,Anshan 114051,Liaoning,China
2School of Materials and Metallurgy,University of Science and Technology Liaoning,Anshan 114051,Liaoning,China
agzg423@163.com,bhzhj2002@126.com
Key words: thermal balance, exergy balance, exergy efficiency, thermal efficiency, saving exergy
Abstract: On the basis of the thermal balance, the exergy balance of No.1 sinter machine at Baosteel was analyzed.
In the sinter material layer high temperature was produced after drying, preheating, charcoal burning heat, etc.
Material thickness is 672 mm, lower than others, so solid fuel consumption is higher.
References [1] Luowen MA: submitted to Journal of Baosteel Technology(2001), In Chinese [2] Fenghe WANG, Fengyun WANG, Mingzhu XIA, Wu LEI.
Exergy submitted to Journal of Shandong Ceramics(2002), In Chinese [3] Chengxu SUN. submitted to Journal of Glass & Enamel(2006),In Chinese
In the sinter material layer high temperature was produced after drying, preheating, charcoal burning heat, etc.
Material thickness is 672 mm, lower than others, so solid fuel consumption is higher.
References [1] Luowen MA: submitted to Journal of Baosteel Technology(2001), In Chinese [2] Fenghe WANG, Fengyun WANG, Mingzhu XIA, Wu LEI.
Exergy submitted to Journal of Shandong Ceramics(2002), In Chinese [3] Chengxu SUN. submitted to Journal of Glass & Enamel(2006),In Chinese
Online since: October 2013
Authors: Jiang Feng Song, Lin Wei Li, Shu Qiu Wang, Fan Hao Zeng, Xiao Fen Tan
The success of this trial preparation provides reference for nuclear industry gettering materials.
Laves phases alloys related to bcc structure are extensively explored for their applications as negative electrode materials in Ni–MH batteries [20].
Q: Chinese Journal of Rare Metals.
WU: Characterization and application of materials structure (Chemical Industry Press, Beijing 2002) [25] Y.
Wan: Getter (Phoenix Science Press, Nanjing 1983)
Laves phases alloys related to bcc structure are extensively explored for their applications as negative electrode materials in Ni–MH batteries [20].
Q: Chinese Journal of Rare Metals.
WU: Characterization and application of materials structure (Chemical Industry Press, Beijing 2002) [25] Y.
Wan: Getter (Phoenix Science Press, Nanjing 1983)