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Online since: May 2007
Authors: Bai Xiang Hu, Guo Liang Zheng, Pin Qi Xia
Introduction
In the field of smart materials, magnetorheological fluid (MRF) has been widely used in various
devices of vibration control
[1-3].
MRF materials experience reversible changes in physical properties such as viscosity, plasticity, elasticity and shear modulus when subjected to different magnetic fields.
Struct.1996(5):565-575 [2] Sui Lili,Ou jinping: Journal of Harbin University of C.E.& Architecture .2002(35): 9-13 (in Chinese) [3] Wang Xiuyong1, Chen Zhengqing2, Ni Yiqing3, Gao Zanming: China Journal of Highway and Transport .2002(16):52-56 (in Chinese) [4] M Yalcintas,Heming Dal: Smart Materials and Structures 2004(13):1-11 [5] Qing Sun, Jin-Xong Zhou, Ling Zhang: Journal of Sound and Vibration. 2003(261):465-481 [6] M Yalcintas, Heming Dal.
Smart Materials and Structures. 1999(8):560-573 [7] Weiss KD,Carlson J D and Nixon D A Journal of Intelligent Materials Systems and Structures. 1994(5):772-775 [8] Ross D, Ungar EE,Kerwin EM.
Journal of Sound and Vibration. 1968(10):163-175
MRF materials experience reversible changes in physical properties such as viscosity, plasticity, elasticity and shear modulus when subjected to different magnetic fields.
Struct.1996(5):565-575 [2] Sui Lili,Ou jinping: Journal of Harbin University of C.E.& Architecture .2002(35): 9-13 (in Chinese) [3] Wang Xiuyong1, Chen Zhengqing2, Ni Yiqing3, Gao Zanming: China Journal of Highway and Transport .2002(16):52-56 (in Chinese) [4] M Yalcintas,Heming Dal: Smart Materials and Structures 2004(13):1-11 [5] Qing Sun, Jin-Xong Zhou, Ling Zhang: Journal of Sound and Vibration. 2003(261):465-481 [6] M Yalcintas, Heming Dal.
Smart Materials and Structures. 1999(8):560-573 [7] Weiss KD,Carlson J D and Nixon D A Journal of Intelligent Materials Systems and Structures. 1994(5):772-775 [8] Ross D, Ungar EE,Kerwin EM.
Journal of Sound and Vibration. 1968(10):163-175
Online since: April 2011
Authors: Salah Sahli, Patrice Raynaud, Yvan Segui, Leila Bouledjnib, Azziz Zenasni
A new class of low-k materials thin films, deposited from a DiPhenyleMethylSilane (DPMS) vapors was prepared using PECVD technique.
Lin: Materials Science and Engineering C Vol. 27 (2007), p. 1145 [2] V.
Dusane: Materials Letters Vol. 60 (2006), p. 1579 [4] Y.
Mercer: Materials Science and Engineering C Vol. 8-9 (1999), p. 361 [8] V.
Breza: Journal of Molecular Structure Vol.699 (2004), p. 93
Lin: Materials Science and Engineering C Vol. 27 (2007), p. 1145 [2] V.
Dusane: Materials Letters Vol. 60 (2006), p. 1579 [4] Y.
Mercer: Materials Science and Engineering C Vol. 8-9 (1999), p. 361 [8] V.
Breza: Journal of Molecular Structure Vol.699 (2004), p. 93
Online since: September 2014
Authors: Zhen Bao Li, Jing Fu, Hua Ma, Ting Ting Zhang
The factors are simulated by ABAQUS software for the impact of seismic performance, which are difference of material strength grade, initial load and the order of prestressing and pretightening.
The factors are simulated by ABAQUS for the impact of seismic performance, which have different strength grade of materials, initial load, the order of prestressing and pretightening force.
The material strength of the new beams is higher than the initial beam, therefore, the damage of the new beam is lighter than it.
Acknowledgements This work was supported by the China Natural Science Foundation (51178014), and Beijing Natural Science Foundation (8132012).
Dave: Journal of Procedia Engineering, 51(2013), p. 230-239 [4] H.Wu: Journal of China Civil Engineering, Vol.46, No.7 (2013), p.37-46 (In Chinese) [5] J.
The factors are simulated by ABAQUS for the impact of seismic performance, which have different strength grade of materials, initial load, the order of prestressing and pretightening force.
The material strength of the new beams is higher than the initial beam, therefore, the damage of the new beam is lighter than it.
Acknowledgements This work was supported by the China Natural Science Foundation (51178014), and Beijing Natural Science Foundation (8132012).
Dave: Journal of Procedia Engineering, 51(2013), p. 230-239 [4] H.Wu: Journal of China Civil Engineering, Vol.46, No.7 (2013), p.37-46 (In Chinese) [5] J.
Online since: May 2011
Authors: Ke Qing Li, De Ping Chen, Shi Li Zhang, Bao Shun Liu
Experiment Materials and Methods
1.1.
Ltd; The CCCW was MAXCELL waterproofing materials from Beijing Nuoou Building Materials(Beijing) Co.
References [1] Li S J, Wan X M: New development of insulation materials.
China Safety Science Journal, 2004, 14(8),p.3
Journal of Liaoning Technical University, 2003,22(8),p.35
Ltd; The CCCW was MAXCELL waterproofing materials from Beijing Nuoou Building Materials(Beijing) Co.
References [1] Li S J, Wan X M: New development of insulation materials.
China Safety Science Journal, 2004, 14(8),p.3
Journal of Liaoning Technical University, 2003,22(8),p.35
Online since: January 2005
Authors: Wan Qi Jie
Thermal and solute transportation effects during Bridgman crystal
growth of II-VI compounds
Jie Wanqi1, a
1
College of Materials Science and Engineeirng, Northwestern Polytechnical University, Xi'an,
710072, China
a
jwq@nwpu.edu.cn
Keywords: Crystal growth, II-VI compounds, solute redistribution, growth interface
Abstract.
CdTe and CdZnTe are the important materials for the epitaxy substrates, room-temperature X-ray and γ-ray detectors, etc.
The results confirmed the possibility to reduce Te precipitates by introducing extra Cd in the charging materials before growth
Kenworthy: Journal of Electronic Materials Vol. 15 (1986), p. 361 [12] Zhou Yaohe, Hu Zhuangqi, and Jie Wanqi: Solidification Technologies (Mechanical Industry Publication, China 1997) (in Chinese) [13] Liu Juncheng, Jie Wanqi and Zhou Yaohe: Progress in Natural Science Vol. 7 (1997), p. 215 [14] Xiaohua Liu, Wanqi Jie, Yaohe Zhou: Journal of Crystal Growth Vol. 209 (2000), p. 751 [15] A.
Sekerka: Journal of Applied Physics Vol. 35 (1964), p. 444 [19] Jie Wanqi: Journal of Functional Materials Vol. 26 (1995), p. 505 (in Chinese) [20] Jie Wanqi: Chinese Journal of Materials Research Vol. 10 (1996), p. 259 (in Chinese) [21] JIE Wanqi: MA Dong, Journal of Crystal Growth Vol. 156 (1995), p. 467 [22] Liu Xiaohua, Guo Xiping, Jie Wanqi, and Zhou Yaohe: Chinese Journal of Materials Research Vol. 12 (1998), p. 123 (in Chinese) [23] Wanqi Jie, Yujie Li, Xiaohua Liu: Journal of Crystal Growth Vol. 205 (1999), p. 510 [24] Ma Dong, Jie Wanqi: Journal of Crystal Growth Vol. 169 (1996), p. 170 [25] Ma Dong, Jie Wanqi: Acta Physica Sinica, Vol. 5 (1996), p. 306 (in Chinese) [26] JIE Wanqi: Journal of Crystal Growth Vol. 219 (2000), p. 379 [27] J.
CdTe and CdZnTe are the important materials for the epitaxy substrates, room-temperature X-ray and γ-ray detectors, etc.
The results confirmed the possibility to reduce Te precipitates by introducing extra Cd in the charging materials before growth
Kenworthy: Journal of Electronic Materials Vol. 15 (1986), p. 361 [12] Zhou Yaohe, Hu Zhuangqi, and Jie Wanqi: Solidification Technologies (Mechanical Industry Publication, China 1997) (in Chinese) [13] Liu Juncheng, Jie Wanqi and Zhou Yaohe: Progress in Natural Science Vol. 7 (1997), p. 215 [14] Xiaohua Liu, Wanqi Jie, Yaohe Zhou: Journal of Crystal Growth Vol. 209 (2000), p. 751 [15] A.
Sekerka: Journal of Applied Physics Vol. 35 (1964), p. 444 [19] Jie Wanqi: Journal of Functional Materials Vol. 26 (1995), p. 505 (in Chinese) [20] Jie Wanqi: Chinese Journal of Materials Research Vol. 10 (1996), p. 259 (in Chinese) [21] JIE Wanqi: MA Dong, Journal of Crystal Growth Vol. 156 (1995), p. 467 [22] Liu Xiaohua, Guo Xiping, Jie Wanqi, and Zhou Yaohe: Chinese Journal of Materials Research Vol. 12 (1998), p. 123 (in Chinese) [23] Wanqi Jie, Yujie Li, Xiaohua Liu: Journal of Crystal Growth Vol. 205 (1999), p. 510 [24] Ma Dong, Jie Wanqi: Journal of Crystal Growth Vol. 169 (1996), p. 170 [25] Ma Dong, Jie Wanqi: Acta Physica Sinica, Vol. 5 (1996), p. 306 (in Chinese) [26] JIE Wanqi: Journal of Crystal Growth Vol. 219 (2000), p. 379 [27] J.
Online since: October 2013
Authors: Feng Ma, Feng Yan Lu
Acknowledgements
This material is based upon work supported by the Science and Technology Development Plan of Shandong Province (grant No. 201116045 and 201013035) and the Science and Technology Development Plan of Shandong Province (grant No. 2010G0020324 and 2006GG2203027).
Wang, Journal of hazardous materials. 131(2006), p.103 [15]D.
Wang, Journal of Xinyang Normal University (Natural Science Edition). 18(2005), p454 [16] Y.
Sanghi, Journal of hazardous materials. 47(2006), p.254 [21]S.
An, Journal of Anhui Agricultural Sciences. 40(2012), p.8240
Wang, Journal of hazardous materials. 131(2006), p.103 [15]D.
Wang, Journal of Xinyang Normal University (Natural Science Edition). 18(2005), p454 [16] Y.
Sanghi, Journal of hazardous materials. 47(2006), p.254 [21]S.
An, Journal of Anhui Agricultural Sciences. 40(2012), p.8240
Online since: April 2024
Authors: Anatoliy Samelyuk, Oksana Kornienko, Andrey Ragulya, Maryna Zamula, Valeriy Kolesnichenko, Yuriy Yurchenko, Oleksandr Shyrokov, Tamara Tomila, Andriy Kotko
The development of new materials for various fields of science and technology has always been an important and priority task for scientists around the world.
The development of powder nanotechnologies for creating transparent functional ceramics is one of the promising areas of modern materials science [1-12].
А В Y3+ Ho3+ Er3+ Tm3+ Yb3+ Lu3+ La3+ 1600 1700 1820 1955 2040 – Materials and Methods La2O3 (LaO-1 grade) and Lu2O3 (produced by Merck Corp.) with a content of 99.99% of the main components were used as starting materials.
Perovskite-like materials based on transition and rare-earth metals: laws of chemical bonding and thermal stability / Dissertation on the search for a doctor of chemical sciences degree - St.
Journal of Solid State Chemistry, 156:173–179, 2001 [27] T.S.
The development of powder nanotechnologies for creating transparent functional ceramics is one of the promising areas of modern materials science [1-12].
А В Y3+ Ho3+ Er3+ Tm3+ Yb3+ Lu3+ La3+ 1600 1700 1820 1955 2040 – Materials and Methods La2O3 (LaO-1 grade) and Lu2O3 (produced by Merck Corp.) with a content of 99.99% of the main components were used as starting materials.
Perovskite-like materials based on transition and rare-earth metals: laws of chemical bonding and thermal stability / Dissertation on the search for a doctor of chemical sciences degree - St.
Journal of Solid State Chemistry, 156:173–179, 2001 [27] T.S.
Online since: October 2020
Authors: Thomas Seefeld, Philipp Warneke
In the previous research, LMI was investigated for various materials.
Experimental Details Materials.
Steinhoff, Texturing of skin-pass rolls by pulsed laser dispersing, Journal of Materials Processing Technology 225 (2015) 84–92
Khomych, Structure and wear resistance of aluminium alloys coated with surface layer laser-modified by silicon carbide, Ukrainian Journal of Mechanical Engineering and Materials Science 4 (2018) 49–57
Seefeld, Determination of the particle content in laser melt injected tracks, Journal of Materials Processing Technology 267 (2019) 177–185.
Experimental Details Materials.
Steinhoff, Texturing of skin-pass rolls by pulsed laser dispersing, Journal of Materials Processing Technology 225 (2015) 84–92
Khomych, Structure and wear resistance of aluminium alloys coated with surface layer laser-modified by silicon carbide, Ukrainian Journal of Mechanical Engineering and Materials Science 4 (2018) 49–57
Seefeld, Determination of the particle content in laser melt injected tracks, Journal of Materials Processing Technology 267 (2019) 177–185.
Online since: January 2010
Authors: Liang Fan, Boa Gang Guo, Tong Jiang Peng, Hai Feng Liu, Hong Juan Sun
At present, the type of gas sensors for semiconductor materials gas sensor can be divided into three
main classes as SnO2, ZnO and Fe2O3.
But in actual applications, the gas sensitivity and selectivity of pure SnO2 gas-sensing materials is not so good [2, 3].
[2] Liujiang Xi, Dong Qing, Xincun Tang and Chunjiao Chen: Materials Chemistry and Physics, Vol. 108 (2008), p. 232
[7] Tongjiang Peng, Hongjuan Sun, Haifeng Liu et al.: Journal of Functional Materials, Vol. 39 (2008), p. 1756
Sainkar, et al.: Materials Chemistry and Physics, Vol. 84 (2004), p. 37.
But in actual applications, the gas sensitivity and selectivity of pure SnO2 gas-sensing materials is not so good [2, 3].
[2] Liujiang Xi, Dong Qing, Xincun Tang and Chunjiao Chen: Materials Chemistry and Physics, Vol. 108 (2008), p. 232
[7] Tongjiang Peng, Hongjuan Sun, Haifeng Liu et al.: Journal of Functional Materials, Vol. 39 (2008), p. 1756
Sainkar, et al.: Materials Chemistry and Physics, Vol. 84 (2004), p. 37.
Online since: February 2008
Authors: Hua De Zheng, Cheng Yun Ning, Zhao Yi Yin, Wen Jun Zhu, Hao Chen, Hai Mei Cheng, Shu Mei Lei, Shi Heng Yin
Experimental
Materials.
References [1] H.Aoki: Journal of Materials Science: Material in Medicine.
Ning: Journal of Wuhan University of Technology-Materials Science, Vol.20[S1](2007), p.56
[5] K.Y.Tan, X.F.Chen and Y.J.Wang: Materials Review.
Zheng, et al.: Key Engineering Materials.
References [1] H.Aoki: Journal of Materials Science: Material in Medicine.
Ning: Journal of Wuhan University of Technology-Materials Science, Vol.20[S1](2007), p.56
[5] K.Y.Tan, X.F.Chen and Y.J.Wang: Materials Review.
Zheng, et al.: Key Engineering Materials.