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Online since: August 2010
Authors: Ping Bo Wu, Yao Hui Lu, Jing Zeng, Xing Wen Wu
Welding Journal, 1992, 71:55~62
Journal of Materials Processing Technology ,183 (2007) :219~225
Computational Materials Science ,43 (2008): 591~607
Computational Materials Science ,43 (2008): 353~365
Journal of Materials Processing Technology, 92-93 (1999) : 405~ 409
Journal of Materials Processing Technology ,183 (2007) :219~225
Computational Materials Science ,43 (2008): 591~607
Computational Materials Science ,43 (2008): 353~365
Journal of Materials Processing Technology, 92-93 (1999) : 405~ 409
Online since: May 2007
Authors: Chao Li, Jian Qin Mao
A new design and analysis of actuators employing
magnetostrictive material TbDyFe is presented.
Design of the TbDyFe actuators Using zone melting unidirectional solidification, the Dept. of Materials Science and Engineering of BUAA has investigated the relationship of unidirectional solidification preferred orientation, microstructure and magnetostrictive property of TbDyFe alloys.
The actuators instrumented <110> preferred orientation TbDyFe materials are constructed, which can generate large amplitude of motion. 2.
Proceedings of the 5th Pacific Rim International Conference on Advanced Materials and Processing, Prat 3, 2004.11.2-5. pp. 2111-2114
Snyder, active control of noise and vibration, China Science Press, 2002.3
Design of the TbDyFe actuators Using zone melting unidirectional solidification, the Dept. of Materials Science and Engineering of BUAA has investigated the relationship of unidirectional solidification preferred orientation, microstructure and magnetostrictive property of TbDyFe alloys.
The actuators instrumented <110> preferred orientation TbDyFe materials are constructed, which can generate large amplitude of motion. 2.
Proceedings of the 5th Pacific Rim International Conference on Advanced Materials and Processing, Prat 3, 2004.11.2-5. pp. 2111-2114
Snyder, active control of noise and vibration, China Science Press, 2002.3
Online since: September 2013
Authors: Shi Liu, Di Wu
Thermal analysis methods and scanning electron microscope (SEM) are utilized to provide a review of thermophysical properties and thermochemical characteristics of the MWCNTs-salt composite materials.
The thermal conductivity of polymer material was enhanced by 30% when mixed with carbon nanotube at 1% mass fraction (Wang et al., 2010).
In particular, these nitrate salts have low corrosion rates with common piping materials, are thermally stable in the upper temperature range required by steam Ranking cycles, have very low vapor pressures, are widely available, and are relatively inexpensive.
When the concentration of carbon nanotubes is low, shows in Fig. 5, interfacial thermal resistance is the main influence factor of molten salt/multi-walled carbon nanotube composite materials ; And when the concentration of carbon nanotubes is high, shows in Fig. 4, nanotube-nanotube heat transfer is remarkably improved, the interfacial thermal is weakened which causes a reduction of specific heat capacity.
Ruhle, Ordered liquid aluminum at the interface with sapphire, Science 310 (2005) 661-663.
The thermal conductivity of polymer material was enhanced by 30% when mixed with carbon nanotube at 1% mass fraction (Wang et al., 2010).
In particular, these nitrate salts have low corrosion rates with common piping materials, are thermally stable in the upper temperature range required by steam Ranking cycles, have very low vapor pressures, are widely available, and are relatively inexpensive.
When the concentration of carbon nanotubes is low, shows in Fig. 5, interfacial thermal resistance is the main influence factor of molten salt/multi-walled carbon nanotube composite materials ; And when the concentration of carbon nanotubes is high, shows in Fig. 4, nanotube-nanotube heat transfer is remarkably improved, the interfacial thermal is weakened which causes a reduction of specific heat capacity.
Ruhle, Ordered liquid aluminum at the interface with sapphire, Science 310 (2005) 661-663.
Online since: September 2020
Authors: Bahia Rabehi, Nezha Gueffaf, Khaled Boumchedda
Chemical compositions of materials used (%).
Afrique Science : Revue Internationale des Sciences et Technologie. 11(2) (2015), 35-43
Caractérisations minéralogique et géotechnique des argiles utilisées dans la céramique de SAFI (Maroc), African Journal of Science and Technology (AJST), Science and Engineering séries 9(1) (2008) 1-11
Venkatarama Reddy and A.Gupta, Characteristics of soil-cement blocks using highly sandy soils, journal Materials and Structures. 38 (6) (2015) 651- 658 [20] K.
Journal des sciences pour l’ingénieur. 5(2005) 40-45.
Afrique Science : Revue Internationale des Sciences et Technologie. 11(2) (2015), 35-43
Caractérisations minéralogique et géotechnique des argiles utilisées dans la céramique de SAFI (Maroc), African Journal of Science and Technology (AJST), Science and Engineering séries 9(1) (2008) 1-11
Venkatarama Reddy and A.Gupta, Characteristics of soil-cement blocks using highly sandy soils, journal Materials and Structures. 38 (6) (2015) 651- 658 [20] K.
Journal des sciences pour l’ingénieur. 5(2005) 40-45.
Online since: November 2012
Authors: Ming Qin, Hui Yang Yu
While in surface micromachining, it is very difficult to control the residual stress, stress gradient, as well as the thickness of the materials deposited.
Baumgartel: Journal of Electrochemical Society Vol.137-11 (1990), p. 3612-3626 [3] S.
Cho: Journal of Microelectromechanical Systems Vol.8-4 (1999), p. 409-416 [4] K.
Muller: Journal of Microelectromechanical Systems Vol.5-4 (1996), p. 19-28 [6] P.
Kenny: submitted to Journal of Microelectromechanical Systems Vol.19-1 (2010), p.28-37
Baumgartel: Journal of Electrochemical Society Vol.137-11 (1990), p. 3612-3626 [3] S.
Cho: Journal of Microelectromechanical Systems Vol.8-4 (1999), p. 409-416 [4] K.
Muller: Journal of Microelectromechanical Systems Vol.5-4 (1996), p. 19-28 [6] P.
Kenny: submitted to Journal of Microelectromechanical Systems Vol.19-1 (2010), p.28-37
Online since: July 2014
Authors: Hai Xing Liu, Quan Hua Fan, Lin Tong Wang, Ting Ting Huang, Qiang Chen, Hui Cao
Acknowledgments
This study were supported by the Natural Science Foundation of Shandong Province (No.
ZR2010BL025), Open Project of State Key Laboratory of Supramolecular Structure and Materials (No. sklssm201323)(Jilin University), State Key Laboratory of Inorganic Synthesis and Preparative Chemistry (No. 2011-13)(Jilin University), "Biochemistry and Molecular Biology" Shandong Province Key Laboratory (Weifang University).
References [1] ZHU Zhi-jia, CHINESE JOURNAL OF CHROMATOGRAPHY, 18, 468(2000) [2] ZHU Long, FENG Man-Liang, WAN Xiu-Qin, LU Jiu-Ru, CHEMICAL JOURNAL OF CHINESE UNIVERSITIES, 17,1693(1996) [3] MA Qiang, WANG Chao, BAI Hua, WANG Xing, DONG Yi-yang, HE Rui-yun, WU Ting, ZHANG Qing, Chinese Journal of Analysis Laboratory, 28, 38(2009) [4] LIU Jian, HAN Feng-Mei, CHEN Yong, Chinese Journal of Analytical Chemistry, 37, 609(2009) [5] XIONG Xiao-Ting, WU Hui-Qin, HUANG Xiao-Lan, Chinese Journal of Analytical Chemistry, 37, 1433(2009) [6] W.S.
ZR2010BL025), Open Project of State Key Laboratory of Supramolecular Structure and Materials (No. sklssm201323)(Jilin University), State Key Laboratory of Inorganic Synthesis and Preparative Chemistry (No. 2011-13)(Jilin University), "Biochemistry and Molecular Biology" Shandong Province Key Laboratory (Weifang University).
References [1] ZHU Zhi-jia, CHINESE JOURNAL OF CHROMATOGRAPHY, 18, 468(2000) [2] ZHU Long, FENG Man-Liang, WAN Xiu-Qin, LU Jiu-Ru, CHEMICAL JOURNAL OF CHINESE UNIVERSITIES, 17,1693(1996) [3] MA Qiang, WANG Chao, BAI Hua, WANG Xing, DONG Yi-yang, HE Rui-yun, WU Ting, ZHANG Qing, Chinese Journal of Analysis Laboratory, 28, 38(2009) [4] LIU Jian, HAN Feng-Mei, CHEN Yong, Chinese Journal of Analytical Chemistry, 37, 609(2009) [5] XIONG Xiao-Ting, WU Hui-Qin, HUANG Xiao-Lan, Chinese Journal of Analytical Chemistry, 37, 1433(2009) [6] W.S.
Online since: December 2009
Authors: Taha Rostamzadeh, H. Shahverdi, R. Sarraf-Mamoory, A. Shanaghi
Vaidyanathan: Materials Science and Engineering
A.
Seyed Reihani, Materials Science and Engineering A.
Miodownik, Materials Science and Engineering A.
Suryanarayana, Progress in Materials Science, Vol. 46 (2001), p. 1 [11] J.
Pengliang, Materials Science and Engineering A, Vol. 416 (2006), p. 45 [13] M.A.
Seyed Reihani, Materials Science and Engineering A.
Miodownik, Materials Science and Engineering A.
Suryanarayana, Progress in Materials Science, Vol. 46 (2001), p. 1 [11] J.
Pengliang, Materials Science and Engineering A, Vol. 416 (2006), p. 45 [13] M.A.
Online since: January 2022
Authors: Mirzo Z. Sharipov, Dilshod E. Hayitov, Mirzohid N. Rizoqulov
Attention to these materials is expressed, on the one hand, in an increased interest in the fundamental aspects of magnetoelectric phenomena, and, on the other, in expectations of specific practical applications of magnetoelectrics in spin electronics (in particular, as the basis of magnetic memory).
However, the development of new devices and devices for spin electronics based on magnetoelectric effects is faced with a fundamental problem - the number of materials known to date that have a sufficient magnitude of magnetoelectric effects is limited.
The most studied magnetoelectric materials at present are bismuth ferrite BiFeO3 and manganite BaMnF4.
From this point of view, studies of the parameters and properties of the domain structure of garnet-ferrites are a priority for the field of modern materials science, which is engaged in the search and creation of materials for the element base of new-generation spin electronics devices, the principle of which is based on changing the domain configuration of materials under the influence of electric and magnetic fields.
Mishin, Magnetic materials.
However, the development of new devices and devices for spin electronics based on magnetoelectric effects is faced with a fundamental problem - the number of materials known to date that have a sufficient magnitude of magnetoelectric effects is limited.
The most studied magnetoelectric materials at present are bismuth ferrite BiFeO3 and manganite BaMnF4.
From this point of view, studies of the parameters and properties of the domain structure of garnet-ferrites are a priority for the field of modern materials science, which is engaged in the search and creation of materials for the element base of new-generation spin electronics devices, the principle of which is based on changing the domain configuration of materials under the influence of electric and magnetic fields.
Mishin, Magnetic materials.
Online since: July 2012
Authors: Radoslaw Zimroz, Walter Bartelmus, Fakher Chaari, Taher Fakhfakh, Mohamed Haddar
European Journal of Mechanics.
[7] R.B., Randall, A new method of modelling gear faults, Journal of Mechanical Design 104, (1982) 259–267
International Journal of COMADEM, 2000, Vol. 3 (4), pp. 5-15
[18] Wright, D., Class notes on design and analysis of machine elements, Department of Mechanical and Materials Engineering, The University of Western Australia (2005)
Makowski et all Adaptive Bearings Vibration Modelling for Diagnosis, Lecture Notes in Computer Science (in Lecture Notes in Artificial Intellig.)
[7] R.B., Randall, A new method of modelling gear faults, Journal of Mechanical Design 104, (1982) 259–267
International Journal of COMADEM, 2000, Vol. 3 (4), pp. 5-15
[18] Wright, D., Class notes on design and analysis of machine elements, Department of Mechanical and Materials Engineering, The University of Western Australia (2005)
Makowski et all Adaptive Bearings Vibration Modelling for Diagnosis, Lecture Notes in Computer Science (in Lecture Notes in Artificial Intellig.)
Online since: October 2011
Authors: Xiao Jun He, Ming Dong Zheng, Xue Hui Li, Mo Xin Yu, Le Fu Wang
The results showed the catalysts were excellent materials for the simultaneous oxidation adsorption of SO2 and NOx.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (No.20076017; 20806026) and the China Postdoctoral Science Special Foundation (No.200902323).
Shu: Chinese Journal of Catalysis.21 (2000) 30-34.
Zhang: Chinese Journal of catalysis. 20 (1999) 450-454.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (No.20076017; 20806026) and the China Postdoctoral Science Special Foundation (No.200902323).
Shu: Chinese Journal of Catalysis.21 (2000) 30-34.
Zhang: Chinese Journal of catalysis. 20 (1999) 450-454.