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Online since: July 2014
Authors: Dong Hua Zhang, Xiao Hong Zhou, Long Wei Zhou
Journal of Composite Materials, 2014 48 (6) 707-721
Journal of Composite Materials, 2010 44 (23) 2759-2778
Journal of Composite Materials, 2013 47 (8) 1029-38
Rare mental materials and engineering, 2009 38 (3) 105-108
Journal of Composite Materials, 2011 45 (10) 1077-90.
Journal of Composite Materials, 2010 44 (23) 2759-2778
Journal of Composite Materials, 2013 47 (8) 1029-38
Rare mental materials and engineering, 2009 38 (3) 105-108
Journal of Composite Materials, 2011 45 (10) 1077-90.
Online since: February 2014
Authors: Akhmad Herman Yuwono, Risa Suryana, Nafi'ah Ardhani, Agus Supriyanto
These materials were in between two FTO electrodes.
All materials of DSSC, except TiO2, were similar to the previous work [8].
Restropo, Study of the bandgap of synthesized titanium dioxide nanoparticles using the sol-gel method and a hydrothermal treatment, The Open Materials Science Journal, 4(2010) 9-14
Supriyanto, Beta-carotene dye of daucus carota as sensitizer on dye-sensitized solar cell, Material Science Forum 737 (2013) 15-19
Journal, 27 (2009) 1174-1184.
All materials of DSSC, except TiO2, were similar to the previous work [8].
Restropo, Study of the bandgap of synthesized titanium dioxide nanoparticles using the sol-gel method and a hydrothermal treatment, The Open Materials Science Journal, 4(2010) 9-14
Supriyanto, Beta-carotene dye of daucus carota as sensitizer on dye-sensitized solar cell, Material Science Forum 737 (2013) 15-19
Journal, 27 (2009) 1174-1184.
Online since: October 2010
Authors: Wei Ping Peng, Min Peng, Zhao Liu, Yan Hong Wei, Re Xia
Zhang: Mechanical Science and Technology, Vol.25 (2006) No.6,
pp.671-674.
Yang: International Journal of Fatigue, Vol.20 (1998) No.1, pp.9-34
Zhao: Journal of Bridge Engineering, Vol.8 (2003) No.5, pp.259-266
Nicholas: Materials Science and Engineering, Vol.357 (2003) No.1-2, pp.141-152
Jerrams: Materials & Design, Vol.26 (2005) No.3, pp.239-245.
Yang: International Journal of Fatigue, Vol.20 (1998) No.1, pp.9-34
Zhao: Journal of Bridge Engineering, Vol.8 (2003) No.5, pp.259-266
Nicholas: Materials Science and Engineering, Vol.357 (2003) No.1-2, pp.141-152
Jerrams: Materials & Design, Vol.26 (2005) No.3, pp.239-245.
Online since: May 2019
Authors: Dong Ying Ju, Zhi Pu Pei, Hai Jian Wang
Alloy Composition Design
The glass forming ability rules in Mg-based materials.
This is another exception of Mg-based materials.
Materials Transactions, JIM, 2000, 41(11): 1372-1378
Materials Science and Engineering: A, 2001, 304-306(1): 1-10
Materials Research Bulletin, 2001, 36(12): 2183-2198
This is another exception of Mg-based materials.
Materials Transactions, JIM, 2000, 41(11): 1372-1378
Materials Science and Engineering: A, 2001, 304-306(1): 1-10
Materials Research Bulletin, 2001, 36(12): 2183-2198
Online since: October 2005
Authors: Alexander M. Ivanov, Evgeny S. Lukin
A Thermovision Method for Studying Deformation Kinetics of Materials
and Structure Elements
E.S.
The characteristic changes in the temperature of a sample correspond to the limiting states of the material.
Study of deformation and fracture of materials with the recording of thermograms and measurement of temperature is based on the phenomenon of the thermal effect following the deformation processes.
Scherbakov: Journal of Technical Physics, Vol. 60 (1990), p. 159
Larionov: Proceedings of the Russian Academy of Sciences, Vol. 384 (2002), p. 469.
The characteristic changes in the temperature of a sample correspond to the limiting states of the material.
Study of deformation and fracture of materials with the recording of thermograms and measurement of temperature is based on the phenomenon of the thermal effect following the deformation processes.
Scherbakov: Journal of Technical Physics, Vol. 60 (1990), p. 159
Larionov: Proceedings of the Russian Academy of Sciences, Vol. 384 (2002), p. 469.
Online since: December 2013
Authors: Zamri Mohamed, Laith Egab, Xu Wang
Trim materials were tested using an impedance tube to suggest the best sound absorbing materials that can be used to mitigate the tyre cavity resonance effect.
The insert of absorbing materials inside tyre air cavity have been tested before [1-4].
The materials were fitted to the rim or filled into the tyre at static condition.
The placement of absorbent materials into the tyre inner surface was done previously but without any guideline to the attachment method or the parameters of materials [1, 4].
In impedance tube test, two trim materials were tested to determine which material has better sound absorption properties.
The insert of absorbing materials inside tyre air cavity have been tested before [1-4].
The materials were fitted to the rim or filled into the tyre at static condition.
The placement of absorbent materials into the tyre inner surface was done previously but without any guideline to the attachment method or the parameters of materials [1, 4].
In impedance tube test, two trim materials were tested to determine which material has better sound absorption properties.
Online since: August 2011
Authors: Chen Wei Shan, Min Wan, Wei Wei Liu, Xiao Juan Gao, Pei Chen
Material removal model is shown in Fig. 2, in which means the cutting depth.
Obviously, the stiffness of blade will be greatly influenced by the material removal process.
The material of blade is TC11.
Acknowledgements The authors wish to acknowledge the support of the National grand science and technology special project for Multi-axes Synchronous Machining Technology on Complex Components of Turbomachine Impellers and Blades, China (Grant No. 2009ZX04014-053), and also the support of the National Science Foundation, China (No.50975237 and No.51005184).
Becker: Journal of Materials Processing Technology Vol. 153–154(2004), p.134 [2] Svetan Ratchev, Evan Govender, Stan Nikov, et al.: Journal of Materials Processing Technology Vol. 143–144(2003), p. 796 [3] S.
Obviously, the stiffness of blade will be greatly influenced by the material removal process.
The material of blade is TC11.
Acknowledgements The authors wish to acknowledge the support of the National grand science and technology special project for Multi-axes Synchronous Machining Technology on Complex Components of Turbomachine Impellers and Blades, China (Grant No. 2009ZX04014-053), and also the support of the National Science Foundation, China (No.50975237 and No.51005184).
Becker: Journal of Materials Processing Technology Vol. 153–154(2004), p.134 [2] Svetan Ratchev, Evan Govender, Stan Nikov, et al.: Journal of Materials Processing Technology Vol. 143–144(2003), p. 796 [3] S.
Online since: August 2014
Authors: Jing Long Bu, Yue Jun Chen, Yan Feng He, Shu Bin Shen, Zhi Fa Wang, Ying Lei Gu
Experimental
Raw Materials.
Zhang: Aerospace Materials & Technology.
Zhou: Rare Metal Materials and Engineering.
Dou: Rare Metal Materials and Engineering.
CHEN, et al: Journal of the Ceramic S˚Ciety of Japan, Vol. 121 (2013), p. 968-971.
Zhang: Aerospace Materials & Technology.
Zhou: Rare Metal Materials and Engineering.
Dou: Rare Metal Materials and Engineering.
CHEN, et al: Journal of the Ceramic S˚Ciety of Japan, Vol. 121 (2013), p. 968-971.
Online since: July 2015
Authors: Jakub Hruza, Jiri Bobek, Lucie Vyslouzilova, Martin Seidl, David Lukas, Petr Lenfeld
This article deals with a development of new filtration materials for respirators.
These materials can be used for example as wound dressing [1], materials for drug delivery system [2], blood vessel prosthesis [3], electrically conductive nanofibers [4], membranes for batteries [5], nanofibers composites [6,7] or highly efficient materials for filtration [8].
Filtration materials in respirators should remove contaminants and dust particles from an inhaled air and nanofibrous materials with their very small inter-fiber pores have a great potential to meet this goal.
Xu: Electrospinning and nanofibers, New frontiers in fiber science (2001) [8] S.
In Autex Research Journal (In press)
These materials can be used for example as wound dressing [1], materials for drug delivery system [2], blood vessel prosthesis [3], electrically conductive nanofibers [4], membranes for batteries [5], nanofibers composites [6,7] or highly efficient materials for filtration [8].
Filtration materials in respirators should remove contaminants and dust particles from an inhaled air and nanofibrous materials with their very small inter-fiber pores have a great potential to meet this goal.
Xu: Electrospinning and nanofibers, New frontiers in fiber science (2001) [8] S.
In Autex Research Journal (In press)
Online since: June 2011
Authors: Xian Jin Yu, Dang Gang Li, Ya Li Zhang, Li Peng Zhang, Zhi Wei Ge, Yun Hui Dong
Abstract: The carbon composite materials with silicon carbide coating were prepared for aluminum electrolysis as inert anode.
WU: Journal of The Chinese Ceramic Society.
Aboelata: Journal of Magnetism and Magnetic Materials, Vol. 195 (1999), p. 667 [14] K.
Park, Materials cience and Engineering, Vol. 104 (2003), p. 9 [16] W.M.
WANG.: Journal of Anyang Teachers College, (2005), p.41
WU: Journal of The Chinese Ceramic Society.
Aboelata: Journal of Magnetism and Magnetic Materials, Vol. 195 (1999), p. 667 [14] K.
Park, Materials cience and Engineering, Vol. 104 (2003), p. 9 [16] W.M.
WANG.: Journal of Anyang Teachers College, (2005), p.41