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Online since: December 2014
Authors: Dan Li, Li Min Dong, Gui Lin Wang, Ze Wu, Zhi Dong Han, Lian Wei Shan
RGO/BiVO4 with Photocatalytic Activity by a hydrothermal method
Li Dan, Shan Lian-weia, Dong Li-minc, Wang Gui-lin, Wu Ze and Han Zhi-dong
College of Materials Science and Engineering, Harbin University of Science and Technology, Harbin 150040, China
aShlw0531@163.com (Corresponding author)
Keywords: Bismuth vanadate, RGO/ BiVO4, Photocatalytic properties.
Chemistry of Materials, 2001, 13(12): 4624-4628
Journal of Environmental Sciences,2012, 24(3): 449-457
Review of photoluminescence performance of nano-sized semiconductor materials and its relationships with photocatalytic activity[J].
Solar Energy Materials Solar Cells, 2006, 90(12): 1773-1787.
Chemistry of Materials, 2001, 13(12): 4624-4628
Journal of Environmental Sciences,2012, 24(3): 449-457
Review of photoluminescence performance of nano-sized semiconductor materials and its relationships with photocatalytic activity[J].
Solar Energy Materials Solar Cells, 2006, 90(12): 1773-1787.
Online since: September 2013
Authors: Han Chi Cheng, Chun Jie Li, Jing Wang, Hong Bo Li, Xing Jun Su
Introduction
Iron and steel materials occupy a major position in structural materials of iron and steel materials, how to improve product quality, improve the performance and prolong the service life, is the realization of saving energy and resources, an important way to reduce environmental pollution.
Experimental and Materials The design of composition on the high strength wear resistant cast steel.
Chromium, manganese, silicon, molybdenum iron alloy as raw materials prepared furnace charge, the charging amount per furnace 10Kg.
References [1] Juqiang Cheng, Zhixue Liu: Journal of Foundry Vol. 60(2011), p.382-385, in Chinese
[6] Hongbin Li,Liandeng Yao,Xiaoting Zhao: Journal of Materials for Mechanical Engineering Vol. 34(2010), p.46-48, in Chinese
Experimental and Materials The design of composition on the high strength wear resistant cast steel.
Chromium, manganese, silicon, molybdenum iron alloy as raw materials prepared furnace charge, the charging amount per furnace 10Kg.
References [1] Juqiang Cheng, Zhixue Liu: Journal of Foundry Vol. 60(2011), p.382-385, in Chinese
[6] Hongbin Li,Liandeng Yao,Xiaoting Zhao: Journal of Materials for Mechanical Engineering Vol. 34(2010), p.46-48, in Chinese
Online since: June 2019
Authors: Silke Hampel, Thomas Hutsch, Bernd Kieback, Thomas Weißgärber, Julius Lohse, André Schlott
Nanocomposite materials were prepared by incorporation of different MWCNT in copper matrix using powder metallurgy methods.
Also the development of composite materials using CNT as reinforcement took place.
The behavior of the manufactured composite materials regarding pool boiling and convection has to be investigate in the next steps.
V., Journal of Composite Science 1 (2017) 6 [25] Wang, H., Li X., Ma, J., Li G., Hu, T., Composites: Part A 43 (2012), pp. 317-324
-F., Universal Journal of Materials Science 3(4) (2015), pp. 55-61
Also the development of composite materials using CNT as reinforcement took place.
The behavior of the manufactured composite materials regarding pool boiling and convection has to be investigate in the next steps.
V., Journal of Composite Science 1 (2017) 6 [25] Wang, H., Li X., Ma, J., Li G., Hu, T., Composites: Part A 43 (2012), pp. 317-324
-F., Universal Journal of Materials Science 3(4) (2015), pp. 55-61
Online since: July 2011
Authors: Qing Kai Han, Zheng Xin Yang
Multiferroic material is typical of anisotropic materials, and the magneto-electro-elastic characters can be mutually coupled.
As follows: The SOLID5, SHELL181 element can be used to model for multiferroic materials.
SHELL181 element also can be used to model for multiferroic materials.
In this paper, there are two multiferroic materials each with significant piezoelectric effect and piezomagnetic effect are calculated and analyzed, that is the piezoelectric material PZT-5A and piezomagnetic materials CoFe2O4 (Hereinafter abbreviated as PZT and CFO).
[15] G Harshe, J P Dougherty, R E Newnham, in: Theoretical modeling of multiplayer magnetoelectric composites, volume 3 of International Journal of Applied Electromagnetic Materials, chapter 4(1993).
As follows: The SOLID5, SHELL181 element can be used to model for multiferroic materials.
SHELL181 element also can be used to model for multiferroic materials.
In this paper, there are two multiferroic materials each with significant piezoelectric effect and piezomagnetic effect are calculated and analyzed, that is the piezoelectric material PZT-5A and piezomagnetic materials CoFe2O4 (Hereinafter abbreviated as PZT and CFO).
[15] G Harshe, J P Dougherty, R E Newnham, in: Theoretical modeling of multiplayer magnetoelectric composites, volume 3 of International Journal of Applied Electromagnetic Materials, chapter 4(1993).
Online since: June 2014
Authors: Dong Min Wang, Yu Fang Fu, Shou Qi Zhang, Shu Xiong Zhang
Materials and Test Methods
2.1 Materials.
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Jin: Journal of Safety Science and Technology, Vol. 3, No. 3 (2007), p. 36-42 [3] S.Y.
ASCE: Journal of Materials in Civil Engineering, Vol.15 (2003), p. 314-322 [12] Z.X.
Song: Journal of Southeast University (Natural Science Edition), Vol. 42, No. 3 (2012), p.487-491 [13]J.
Wan: Journal of Sichuan Institute of Building Materials, Vol. 2 (1988), p. 17-21 [2] Z.L.
Jin: Journal of Safety Science and Technology, Vol. 3, No. 3 (2007), p. 36-42 [3] S.Y.
ASCE: Journal of Materials in Civil Engineering, Vol.15 (2003), p. 314-322 [12] Z.X.
Song: Journal of Southeast University (Natural Science Edition), Vol. 42, No. 3 (2012), p.487-491 [13]J.
Online since: September 2012
Authors: Jin Lian Hu, Jing Lu
Journal of Applied Polymer Science, 2008. 109(1): p. 406-411
Journal of Applied Polymer Science, 2005. 96(2): p. 460-465
Journal of Applied Polymer Science, 2011. 120(1): p. 492-500
Journal of Materials Science, 2011. 46: p. 3464-3469
International Journal of Sheep and Wool Science, 2008. 56
Journal of Applied Polymer Science, 2005. 96(2): p. 460-465
Journal of Applied Polymer Science, 2011. 120(1): p. 492-500
Journal of Materials Science, 2011. 46: p. 3464-3469
International Journal of Sheep and Wool Science, 2008. 56
Online since: June 2012
Authors: Ji Zhou, Bo Li, Yang Liu, You Wei Yao, Jing Jing Gao, Zhen Dong Liu
Moreover, materials with high active surface area, nano-particle are more active compared to the same materials with larger particle sizes [14].
Adkins: Journal of Materials Science Letters. 11 (1992) 263-265
WangL: Journal of Hazardous Materials. 171 (2009) 294-300
Al-Amri: Materials Science and Engineering: B. 117 (2005) 302-306
Stein: Journal of Materials Chemistry. 14 (2004) 1616-1622
Adkins: Journal of Materials Science Letters. 11 (1992) 263-265
WangL: Journal of Hazardous Materials. 171 (2009) 294-300
Al-Amri: Materials Science and Engineering: B. 117 (2005) 302-306
Stein: Journal of Materials Chemistry. 14 (2004) 1616-1622
Online since: January 2025
Authors: Harsh Tiwari, Farzan Shahid, Mayank Panwar, Vijay Gautam
LS Dyna allows for precise modeling of the dynamic behavior of various materials under crash conditions, providing valuable insights into how different designs and materials enhance vehicle safety.
Shows the material properties of the materials used.
The Comparative Specific Internal Energies of all the three materials is depicted in table 4.
Continual advancements in materials science, coupled with innovations in vehicle design and safety technology, will drive the next generation of electric vehicle safety enhancements.
International Journal of Crashworthiness
Shows the material properties of the materials used.
The Comparative Specific Internal Energies of all the three materials is depicted in table 4.
Continual advancements in materials science, coupled with innovations in vehicle design and safety technology, will drive the next generation of electric vehicle safety enhancements.
International Journal of Crashworthiness
Online since: June 2014
Authors: Yuan Zhou
Li: Advanced Materials Research, vol. 175(2011), p. 143
Wang: Journal of applied polymer science, vol. 79(2001), p. 2185
Ye: Journal of Applied Polymer Science, vol. 79(2001), p. 2192
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Yoshimizu: Journal of applied polymer science, vol. 40(1990), p. 1745.
Wang: Journal of applied polymer science, vol. 79(2001), p. 2185
Ye: Journal of Applied Polymer Science, vol. 79(2001), p. 2192
Freddi: Journal of Polymer Science Part B: Polymer Physics, vol. 32(1994), p. 961
Yoshimizu: Journal of applied polymer science, vol. 40(1990), p. 1745.