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Online since: November 2012
Authors: Ezio Cadoni, Narinder K. Gupta, Nilamber Singh, Maloy K. Singha
Journal of Iron and Steel Research, International, 16, 6 (2009), 29-32
Materials Chemistry and Physics, 125 (2011), 576–586
An investigation of the mechanical properties of materials at very high rates of loading.
Materials Science Forum, 710 (2012), 421-426
Materials and Design, 32, 10 (2011), 5091-5098.
Materials Chemistry and Physics, 125 (2011), 576–586
An investigation of the mechanical properties of materials at very high rates of loading.
Materials Science Forum, 710 (2012), 421-426
Materials and Design, 32, 10 (2011), 5091-5098.
Online since: April 2019
Authors: Swieng Thuanboon, Jintana Tempiamwatcharothai, Kumpanat Sirivedin, Pinai Mungsantisuk
The test method for the electrochemical efficiency of the aluminium alloy in Fig. 14 (a, b) is DNVGL-RP-B401, Laboratory Testing of galvanic anode Materials for quality control [4].
Acknowledgements This research was funded by Thai Marine Protection Co., Ltd References [1] Information on http://www.ifoundryman.com/aluminium-casting/2/ [2] Smith, William F., Principles of Materials Science and Engineering.
(p. 128-132) [3] Ahmad Keyvani, Masoud Emamy, Mohsen Saremi, Hossein Sina, Mahdi Mahta., “Influence of Casting Temperature on Electrochemical Behavior of Al-Zn-In Sacrificial Anodes”: submitted to Journal of Materials Research., Vol.24, No.3, pp.1-8 (2005) [4] DNVGL-RP-B401 Edition June 2017., Cathodic Protection Design [5] GALVANIC ANODE SPECIFICATIONS – A MANUFACTURER’S PERSPECTIVE B.
Hashmi, “Metal Matrix Composites: Production by the Stir Casting Method.”: submitted to Research in Journal of Materials Processing Technology., Vol. 119, No. 1-3, pp. 329-335. (1999) [10] Amol D.
Anthymidis et al., “Production of Al Metal Matrix Composites by the Stir-Casting Method”: submitted to Research in Key Engineering Materials, Vols. 592-593, pp. 614-617, (2014) [12] Soltani, S., Azari Khosroshahi, R., Mousavian, R.
Acknowledgements This research was funded by Thai Marine Protection Co., Ltd References [1] Information on http://www.ifoundryman.com/aluminium-casting/2/ [2] Smith, William F., Principles of Materials Science and Engineering.
(p. 128-132) [3] Ahmad Keyvani, Masoud Emamy, Mohsen Saremi, Hossein Sina, Mahdi Mahta., “Influence of Casting Temperature on Electrochemical Behavior of Al-Zn-In Sacrificial Anodes”: submitted to Journal of Materials Research., Vol.24, No.3, pp.1-8 (2005) [4] DNVGL-RP-B401 Edition June 2017., Cathodic Protection Design [5] GALVANIC ANODE SPECIFICATIONS – A MANUFACTURER’S PERSPECTIVE B.
Hashmi, “Metal Matrix Composites: Production by the Stir Casting Method.”: submitted to Research in Journal of Materials Processing Technology., Vol. 119, No. 1-3, pp. 329-335. (1999) [10] Amol D.
Anthymidis et al., “Production of Al Metal Matrix Composites by the Stir-Casting Method”: submitted to Research in Key Engineering Materials, Vols. 592-593, pp. 614-617, (2014) [12] Soltani, S., Azari Khosroshahi, R., Mousavian, R.
Online since: January 2010
Authors: Ha Soo Hwang, Duck Soo Yuk, So Hee Ko, In Park
(a) (b) (c) Acknowledgment
This research was supported by a grant from the Fundamental R&D Program for Core Technology of
Materials funded by the Ministry of Knowledge and Economy, Republic of Korea.
Russell: Science 297 (2002), 964-967
Shi: Journal of Physical Chemistry B 109 (2005), 23787-23793
Cohen: Science 318 (2007), 1618-1622
Bohn: Journal of Colloids and Interface Science, 26 (1968), 62-69.
Russell: Science 297 (2002), 964-967
Shi: Journal of Physical Chemistry B 109 (2005), 23787-23793
Cohen: Science 318 (2007), 1618-1622
Bohn: Journal of Colloids and Interface Science, 26 (1968), 62-69.
Online since: March 2012
Authors: Xin Qian, Mi Zhou, Yu Long Shuai
Self-Assembly of Amphiphilic Block Copolymer in Aqueous Solutions Tuned by Host-Guest Inclusion Complexation
Yulong Shuai, Mi Zhou, Xin Qian
College of Chemical Engineering and Materials Science, Zhejiang University of Technology, Hangzhou, China, 30014
Email: zhoumi@zjut.edu.cn
Keywords: α-cyclodextrin; ε-caprolactone; N-isopropyl acrylamide; micelle; self-assembly.
The experiment part The raw materials ε-Caprolactone (ε-CL) (Acros Organic) were purified with CaH2 by vacuum distillation.
Acknowledgement Thanks for the funding for the research work from the National Youth Science Fund project (21,004,053) and scientific research project of Department of Education of Zhejiang Province, Y200907663.
Journal of Polymer Science: Part A: Polymer Chemistry, 2009, 47(11): 2574-2762
Journal of Polymer Science: Part A: Polymer Chemistry, 2003, 41(23): 3847–3861
The experiment part The raw materials ε-Caprolactone (ε-CL) (Acros Organic) were purified with CaH2 by vacuum distillation.
Acknowledgement Thanks for the funding for the research work from the National Youth Science Fund project (21,004,053) and scientific research project of Department of Education of Zhejiang Province, Y200907663.
Journal of Polymer Science: Part A: Polymer Chemistry, 2009, 47(11): 2574-2762
Journal of Polymer Science: Part A: Polymer Chemistry, 2003, 41(23): 3847–3861
Online since: October 2014
Authors: Ya Jun Luo, Tie Jun Tao, En An Chi, Ming Sheng Zhao
Safety Evaluation in Emulsion Explosive Continuous Manufacturing Based on Unascertained Measurement Model
LUO Yajun1, ZHAO Mingsheng2, CHI Enan2 and TAO Tiejun2
1 9855 Branch of Guizhou Jiulian Industrial Explosive Materials Development Co.
Acknowledgements This work was supported by the grants from the Guizhou Science and Technology Plan Project (No.
Explosive Materials, 2012, 31(6): 25-30
Journal of Central South University(Science and Technology), 2010, 41(6): 2373-2379
Journal of University of Science and Technology Beijing, 2006, 28(2): 101−103. [2] M.A.
Acknowledgements This work was supported by the grants from the Guizhou Science and Technology Plan Project (No.
Explosive Materials, 2012, 31(6): 25-30
Journal of Central South University(Science and Technology), 2010, 41(6): 2373-2379
Journal of University of Science and Technology Beijing, 2006, 28(2): 101−103. [2] M.A.
Online since: May 2011
Authors: Chen Ye, Xiu Juan Li, Qing Dai Liu
Materials and Methods
Materials.
Acknowledgements This study was supported by the National Natural Science Foundation of China under grant number 31071634.
[4] Lijuan liu, Liebo Shu, Hairong Chen, et al: Journal of Plant Genetic Resources Vol.106-110 (2009), p.1 in Chinese
[5] Jiazheng Wang, Ming Fan, in: Technical of Protein Manual, edtied by Beijing Science publishing Company, China, Beijing (2000), in press in Chinese
[6] Mingjia Fu, Zujian Wu, Qiying Lin: Journal of Fujian Agriculture Forestry University (Natural Science Edition), Vol.84-88 (2003), p.1 in Chinese
Acknowledgements This study was supported by the National Natural Science Foundation of China under grant number 31071634.
[4] Lijuan liu, Liebo Shu, Hairong Chen, et al: Journal of Plant Genetic Resources Vol.106-110 (2009), p.1 in Chinese
[5] Jiazheng Wang, Ming Fan, in: Technical of Protein Manual, edtied by Beijing Science publishing Company, China, Beijing (2000), in press in Chinese
[6] Mingjia Fu, Zujian Wu, Qiying Lin: Journal of Fujian Agriculture Forestry University (Natural Science Edition), Vol.84-88 (2003), p.1 in Chinese
Online since: December 2012
Authors: Gui Xiang Dai, Hong Yang
Materials and Methods
The study was carried out in vicinity of the Guohua plant, located in bottom of Xiangshan Bay.
As dissolved oxygen largely determines the status of aquatic life activity in the environment, it is one of the necessary materials for metabolic process.
Journal of Thermal Biology, Vol.31(2006), p.556
Marine Science Bulletin.
Journal of fisheries of China,Vol.35(7)(2011), p.1030
As dissolved oxygen largely determines the status of aquatic life activity in the environment, it is one of the necessary materials for metabolic process.
Journal of Thermal Biology, Vol.31(2006), p.556
Marine Science Bulletin.
Journal of fisheries of China,Vol.35(7)(2011), p.1030
Online since: October 2010
Authors: Ji Wen Li, Ai Qin Wang, Wen Yan Wang, Luo Li Li, Jing Pei Xie
Henan University of Science and Technology.
Dong: Materials Science and Engineering, Vol. 17 (1999) No.4, pp.101-104(In Chinese) [2] Q.
Chang: Journal of Liaoning Institute of Technology, Vol. 23 (2003) No.5, pp.41-44(In Chinese) [3] N.F.
Fu: New Metallic materials of Non-equilibrium solidification(Science Press, China 2004), pp.96-140(In Chinese) [7] X.G.
Cui: Journal of Harbin Institute of Technology, Vol. 6 (2001) No.5,pp.112-116(In Chinese)
Dong: Materials Science and Engineering, Vol. 17 (1999) No.4, pp.101-104(In Chinese) [2] Q.
Chang: Journal of Liaoning Institute of Technology, Vol. 23 (2003) No.5, pp.41-44(In Chinese) [3] N.F.
Fu: New Metallic materials of Non-equilibrium solidification(Science Press, China 2004), pp.96-140(In Chinese) [7] X.G.
Cui: Journal of Harbin Institute of Technology, Vol. 6 (2001) No.5,pp.112-116(In Chinese)
Online since: September 2013
Authors: Hong Xin Wang, Xin Sun, Fu Ping Lu, Ming Li
Research on Alkaline Pectinase for Hemp Degumming
Ming Lia, Hongxin Wang, Xin Sun, and Fuping Lub
Key Laboratory of Industrial Fermentation Microbiology, Education Ministry of China, Tianjin University of Science & Technology, No.29, 13 Main Street, Economic and Technological Development Zone, Tianjin, China.
Materials and methods Materials The strain Bacillus subtilis TCCC11485 was constructed by Enzyme and Applied Microbiology Laboratory in Tianjin University of Science and Technology.
Acknowledgments This work was supported by Key Technology Research and Development Program of Tianjin, China (No. 11ZCKFSY00900),Tianjin Research Program of Application Foundation and Advanced Technology (No. 11JCYBJC 09600), and National Natural Science Foundation of China (No. 21176190).
Chinese Journal of Applied and Environmental Biology, 2005, 11(3): 354-358
Journal of The Science of Food and Agriculture, 2003, 83(15): 1600-1606
Materials and methods Materials The strain Bacillus subtilis TCCC11485 was constructed by Enzyme and Applied Microbiology Laboratory in Tianjin University of Science and Technology.
Acknowledgments This work was supported by Key Technology Research and Development Program of Tianjin, China (No. 11ZCKFSY00900),Tianjin Research Program of Application Foundation and Advanced Technology (No. 11JCYBJC 09600), and National Natural Science Foundation of China (No. 21176190).
Chinese Journal of Applied and Environmental Biology, 2005, 11(3): 354-358
Journal of The Science of Food and Agriculture, 2003, 83(15): 1600-1606
Online since: January 2013
Authors: Yu Li, Can Wang, Shuai Jiang, Zhi Wei Liu, Da Qiang Cang, Yi Chen
Combining Recovering Iron with Activating the Residual Slag Process for Electric Arc Furnace (EAF) Slag
Zhiwei Liu 1,2,3,a, Yu Li *1,2,b , Daqiang Cang 1,2,c, Yi Cheng2,
Shuai Jiang2, Can Wang2
1 State Key Laboratory of Advanced Metallurgy, University of Science and Technology Beijing, Beijing, 100083, China
2 School of Metallurgical and Ecological Engineering, University of Science and Technology Beijing, Beijing 100083, China
3 Laiwu Steel Group Co.
Table 3 Comparison of reactivity of different activated residual slag Activating agents Content [%] 7d Strength[MPa] 28d Strength[MPa] Reactivity index Bending strength Compressive strengths Bending strength Compressive strengths A7 A28 CaSO4·2H2O 4 5.86 27.05 7.42 41.05 77.7 78.5 5 5.97 27.96 7.69 41.97 80.3 80.4 6 5.72 27.16 7.57 41.36 78.0 79.2 CaSO4 4 5.72 26.51 7.17 39.82 76.2 76.3 5 6.05 27.18 7.62 41.13 78.1 78.8 6 5.84 26.76 7.34 39.94 76.9 76.5 CaSO4·1/2H2O 4 6.07 28.51 7.68 43.25 81.9 82.8 5 5.97 28.02 7.56 42.43 80.5 81.3 6 5.63 27.71 7.46 42.14 79.6 80.7 Activated residual slag cements were prepared by mixing three raw materials at different proportion as shown in Table 4.
Table 4 Mechanical performances of residual slag cements Content of raw materials [%] Stability 3d Strength [MPa] 7d Strength [MPa] 28d Strength [MPa] Clinker BF slag Residual slag Bending strength Compressive strengths Bending strength Compressive strengths Bending strength Compressive strengths 20 50 30 1.2 3.67 16.45 5.03 23.57 7.22 43.24 30 50 20 0.8 4.23 17.87 5.59 25.88 7.56 46.68 30 40 30 1.0 3.82 17.23 5.24 24.76 7.34 44.46 Conclusions Increasing fineness of EAF slag is adverse to recover iron from the slag.
The Comprehensive Utilization Research of Electric Furnace Slag in ChongQing Iron&Steel Group Special Steel Co., Journal of Chonqing Polytechnic College, 2002(10):198~200
Research and Development in Activation of Steel Slag Activity, Journal of Shanghai University (Natural Science), 2004(2): 91~95
Table 3 Comparison of reactivity of different activated residual slag Activating agents Content [%] 7d Strength[MPa] 28d Strength[MPa] Reactivity index Bending strength Compressive strengths Bending strength Compressive strengths A7 A28 CaSO4·2H2O 4 5.86 27.05 7.42 41.05 77.7 78.5 5 5.97 27.96 7.69 41.97 80.3 80.4 6 5.72 27.16 7.57 41.36 78.0 79.2 CaSO4 4 5.72 26.51 7.17 39.82 76.2 76.3 5 6.05 27.18 7.62 41.13 78.1 78.8 6 5.84 26.76 7.34 39.94 76.9 76.5 CaSO4·1/2H2O 4 6.07 28.51 7.68 43.25 81.9 82.8 5 5.97 28.02 7.56 42.43 80.5 81.3 6 5.63 27.71 7.46 42.14 79.6 80.7 Activated residual slag cements were prepared by mixing three raw materials at different proportion as shown in Table 4.
Table 4 Mechanical performances of residual slag cements Content of raw materials [%] Stability 3d Strength [MPa] 7d Strength [MPa] 28d Strength [MPa] Clinker BF slag Residual slag Bending strength Compressive strengths Bending strength Compressive strengths Bending strength Compressive strengths 20 50 30 1.2 3.67 16.45 5.03 23.57 7.22 43.24 30 50 20 0.8 4.23 17.87 5.59 25.88 7.56 46.68 30 40 30 1.0 3.82 17.23 5.24 24.76 7.34 44.46 Conclusions Increasing fineness of EAF slag is adverse to recover iron from the slag.
The Comprehensive Utilization Research of Electric Furnace Slag in ChongQing Iron&Steel Group Special Steel Co., Journal of Chonqing Polytechnic College, 2002(10):198~200
Research and Development in Activation of Steel Slag Activity, Journal of Shanghai University (Natural Science), 2004(2): 91~95