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Online since: January 2007
Authors: C.Y. Yao, Tao Gao, Ju Long Yuan, Xun Lv, Wei Peng, F.Q. Liu
Experimental Setup
Preparation of Bonding Materials.
Journal of the ASPE Vol. 21, No 2/3 pp.134-139
Journal of materials Processing Technology, Vol. 113(2001), pp.385-388
Yao: Journal of Materials Processing Tech.
Gao: Key Engineering Materials Vol. 259(1) (2004), pp.59-63.
Journal of the ASPE Vol. 21, No 2/3 pp.134-139
Journal of materials Processing Technology, Vol. 113(2001), pp.385-388
Yao: Journal of Materials Processing Tech.
Gao: Key Engineering Materials Vol. 259(1) (2004), pp.59-63.
Online since: September 2013
Authors: Hui Wu, Chang Long Wang, Wen Ni
Methods and Materials
Raw Materials.
International Journal of Minerals, Metallurgy, and Materials. 17 (2010) 116-120
Journal of University of Science and Technology Beijing. 32 (2010) 1253-1257
Journal of University of Science and Technology Beijing.32 (2010) 504-508
International Journal of Minerals, Metallurgy and Materials. 17 (2010) 116-120
International Journal of Minerals, Metallurgy, and Materials. 17 (2010) 116-120
Journal of University of Science and Technology Beijing. 32 (2010) 1253-1257
Journal of University of Science and Technology Beijing.32 (2010) 504-508
International Journal of Minerals, Metallurgy and Materials. 17 (2010) 116-120
Online since: September 2011
Authors: Ming Tian Li, Jun Lian He
Actually, quasi-brittle materials are heterogeneous.
Lattice cellular automata can be used to study the heterogeneity of quasi-brittle materials.
To divide materials into equivalent lattice model. 2.
Quasi-brittle materials such as rock, concrete and so on are usually in compression.
Zhou: International Journal of Rock Mechanics and Mining Sciences, Vol.41(2004), p. 452 [8] B.Q.
Lattice cellular automata can be used to study the heterogeneity of quasi-brittle materials.
To divide materials into equivalent lattice model. 2.
Quasi-brittle materials such as rock, concrete and so on are usually in compression.
Zhou: International Journal of Rock Mechanics and Mining Sciences, Vol.41(2004), p. 452 [8] B.Q.
Online since: January 2014
Authors: Xin Hong Diao, Kai Wang, Ping Yong Fu
Whether the model test succeeds depends heavily on the choosing of similar materials.
In the model test study, reasonable selection of similar materials and proportioning is very important.
Acknowledgements This work subsidized by both State Natural Science Foundation Program (No. 51168014) and Natural Science Foundation Program of Jiangxi Province (No. 2010GZC0023).
Beijing: Science Press, 2008
Journal of hydraulic engineering, 2007, ( a ): 716 - 722
In the model test study, reasonable selection of similar materials and proportioning is very important.
Acknowledgements This work subsidized by both State Natural Science Foundation Program (No. 51168014) and Natural Science Foundation Program of Jiangxi Province (No. 2010GZC0023).
Beijing: Science Press, 2008
Journal of hydraulic engineering, 2007, ( a ): 716 - 722
Online since: October 2012
Authors: Xiao Yan Wang, Yong Qing Zhai, Zi Hua Yao, Man De Qiu
Materials Review(2011),25(2):125-130
Journal of Traumatic Surgery(2011),13(3):272-275
Materials Chemistry and Physics(2011),130(1):561-568
Journal of Peking University (2011),43(5):730-735
Journal of Xiamen University (2010),49(5):671-675
Journal of Traumatic Surgery(2011),13(3):272-275
Materials Chemistry and Physics(2011),130(1):561-568
Journal of Peking University (2011),43(5):730-735
Journal of Xiamen University (2010),49(5):671-675
Online since: October 2012
Authors: Yang Sun
Application and Perspective of Intelligent Materials
Yang Sun
1Institute of Art&Fashion, Tianjin Polytechnic University, Tianjin, 300387
a874195639@qq.com
Key words: intelligent costume materials, clothing design,garment cloth
Abstract.The rapid development of science and technology shows a profound impact to the development of clothing.
If this material is appropriately applied to the medical care clothing design, it can greatly reduce the stimulation and injury to the patients caused by environmental temperature change.
To solve this problem, we can consider using some composite materials to produce this intelligent waterproof breathable fabric.
Medical care clothing design with intelligent thermal-sensitive shape memory fabric Shape memory material includes alloy and polymer.
Conclusion Implantation of intelligent materials has become an inevitable trend in the field of clothing design, bringing more innovation and more value, playing a positive role to promote the development of the clothing.
If this material is appropriately applied to the medical care clothing design, it can greatly reduce the stimulation and injury to the patients caused by environmental temperature change.
To solve this problem, we can consider using some composite materials to produce this intelligent waterproof breathable fabric.
Medical care clothing design with intelligent thermal-sensitive shape memory fabric Shape memory material includes alloy and polymer.
Conclusion Implantation of intelligent materials has become an inevitable trend in the field of clothing design, bringing more innovation and more value, playing a positive role to promote the development of the clothing.
Online since: October 2011
Authors: De Cai Jin, Yu Hua Zhao, Xiao Yi Cang, Jie Li
Electrode materials are carbon felt, iron, aluminum and titanium alloys.
Journal of Hazardous Materials B Vol.84(2001),p.29
Journal of Tongji University: Natural Science Vol.34(2006),p.638, in Chinese
Journal of Shenyang Jianzhu University:Natural Science Vol.27(2011),p.125, in Chinese
Journal of Shenyang Jianzhu University:Natural Science Vol.25 (2009),p.325, in Chinese.
Journal of Hazardous Materials B Vol.84(2001),p.29
Journal of Tongji University: Natural Science Vol.34(2006),p.638, in Chinese
Journal of Shenyang Jianzhu University:Natural Science Vol.27(2011),p.125, in Chinese
Journal of Shenyang Jianzhu University:Natural Science Vol.25 (2009),p.325, in Chinese.
Online since: August 2013
Authors: Qiang Yi Xi
Study on Materials Selection and Construction of Digital Language Lab Based on Properties of Electronic Materials
Qiangyi Xi
Office of Foreign Languages School, Jinyinhu Campus of Wuhan Polytechnic University, Machi Road 1#, Hankou, Wuhan, China
bondyxi@hotmail.com
Keywords: equipment; digital language lab; materials selection; construction environment
Abstract.
This paper mainly deals with the materials selection and the construction of the digital language lab based on properties of electronic materials, and thus provides reference to set up more efficient and more effective language labs.
It mainly comes from the moist-keeping materials, insulation materials, floor glue, paints, plastics, wallpaper and so on.
In order to keep users’ health, so in the decoration, it is a must to use building materials and decorative materials of low or no formaldehyde concentration.
Summary With the development of science and technology, more useful electronic materials can be applied in language training field, and there are many aspects concerning labs construction worth careful research, such as materials selection, installation, debugging, energy saving, room decoration, etc.
This paper mainly deals with the materials selection and the construction of the digital language lab based on properties of electronic materials, and thus provides reference to set up more efficient and more effective language labs.
It mainly comes from the moist-keeping materials, insulation materials, floor glue, paints, plastics, wallpaper and so on.
In order to keep users’ health, so in the decoration, it is a must to use building materials and decorative materials of low or no formaldehyde concentration.
Summary With the development of science and technology, more useful electronic materials can be applied in language training field, and there are many aspects concerning labs construction worth careful research, such as materials selection, installation, debugging, energy saving, room decoration, etc.
Online since: July 2024
Authors: Wen Fang Xing, Hua Zhen Wei, Shu Hu Li, Dan Yong Wang
Barbero, Journal of Composite Materials. 32(1998) 483
[2] E.J.
Saleh, Journal of Composite Materials. 27(1993) 83 [4] J.M.
Springer, Journal of Composite Materials. 21(1987) 421 [5] B.W.
Morals, Journal of composite materials. 30(1996) 1115 [8] A.S.
Argon A S, Treatise on Materials Science and Technology. 1(1972) 79 [9] B.
Saleh, Journal of Composite Materials. 27(1993) 83 [4] J.M.
Springer, Journal of Composite Materials. 21(1987) 421 [5] B.W.
Morals, Journal of composite materials. 30(1996) 1115 [8] A.S.
Argon A S, Treatise on Materials Science and Technology. 1(1972) 79 [9] B.
Online since: July 2017
Authors: Vladimir N. Sanin, V.I. Yukhvid, Vladimir A. Gorshkov, M.I. Alymov, Dmitrii Andreev
Alymove
Institute of Structural Macrokinetics and Materials Science, Russian Academy of Sciences, Chernogolovka, Moscow, 142432 Russia
a*yukh@ism.ac.ru, bade@ism.ac.ru, csvn@ism.ac.ru, dgorsh@ism.ac.ru, edirector@ism.ac.ru
Keywords: SHS metallurgy, composite material (CM), heat-resistant material (HM), hard alloy (HA).
These composite materials include hard alloys and heat-resistant materials.
Tretyakov, Foundations of materials science and production technology of sintered hard alloys, Moscow, Metallurgiya, 1976
Cao, Combination of mechanochemical activation and self-propagating behaviour for the synthesis of Ti aluminides, Materials Science and Engineering, A361, (2003) 23-28
Journal of Refractory Metals and Hard Materials. 50 (2015) 113-119
These composite materials include hard alloys and heat-resistant materials.
Tretyakov, Foundations of materials science and production technology of sintered hard alloys, Moscow, Metallurgiya, 1976
Cao, Combination of mechanochemical activation and self-propagating behaviour for the synthesis of Ti aluminides, Materials Science and Engineering, A361, (2003) 23-28
Journal of Refractory Metals and Hard Materials. 50 (2015) 113-119