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Online since: August 2013
Authors: Mei Huang, Min Dong Zhang, Yuan Liu, Jun Feng Hua
Experimental section
Materials.
Li: Marine Science Bulletin Vol.5 (2003), p.32 [3] Y.S.
William: Canadian journal of microbiology Vol.38 (1992) p.921 [5] M.M.
Choong: Journal of Environmental Engineering Vol.138, (2012) p.1157
Li: Marine Science Bulletin Vol.5 (2003), p.32 [3] Y.S.
William: Canadian journal of microbiology Vol.38 (1992) p.921 [5] M.M.
Choong: Journal of Environmental Engineering Vol.138, (2012) p.1157
Online since: November 2013
Authors: Chong Kai Zhou, Li Ni, Ya Yu Huang
The Dynamic Simulation of Engine Slider-crank Mechanism Based on ANSYS and ADAMS
Li Ni1,a, Yayu Huang2,b, Chongkai Zhou3,c
Kunming University of Science and Technology, Kunming, 650500, China
a609803649@qq.com, bkmhuangyayu@outlook.com, czh.chk@163.com
Keywords: Slider-crank, Rigid-flexible coupling, Kinematics, Dynamics, Simulation
Abstract.
ADAMS and ANSYS joint generate the Rigid-flexible coupling model. (1) Put the connecting rod model into ANSYS to generate flexible body neutral file: 1) define the entity model element type, material properties and real constants; 2) mesh to generate finite element model; 3) Set outside point , generate neutral file by ANSYS and ADAMS interface.
Fig.8 The stress diagram Fig.9 The strain diagram As is shown, the maximum stress of the connecting rod is 321.7864 MPa, it is far less than the allowable stress of material, and it meets the requirements of strength, and the strain diagram and stress diagram have the same change trend, the maximum strain is 0.002 mm.
“The flexible body joint simulation based on ANSYS and ADAMS [J]”, Journal of system simulation, 2008 [4] Liping Chen, Yunqing Zhang and Weiqun Ren, etc.
“Industrial mechanical dynamics simulation [J]”, Journal of equipment manufacturing technology, 2009
ADAMS and ANSYS joint generate the Rigid-flexible coupling model. (1) Put the connecting rod model into ANSYS to generate flexible body neutral file: 1) define the entity model element type, material properties and real constants; 2) mesh to generate finite element model; 3) Set outside point , generate neutral file by ANSYS and ADAMS interface.
Fig.8 The stress diagram Fig.9 The strain diagram As is shown, the maximum stress of the connecting rod is 321.7864 MPa, it is far less than the allowable stress of material, and it meets the requirements of strength, and the strain diagram and stress diagram have the same change trend, the maximum strain is 0.002 mm.
“The flexible body joint simulation based on ANSYS and ADAMS [J]”, Journal of system simulation, 2008 [4] Liping Chen, Yunqing Zhang and Weiqun Ren, etc.
“Industrial mechanical dynamics simulation [J]”, Journal of equipment manufacturing technology, 2009
Online since: September 2011
Authors: Maurizio Vedani, Qiang Ge
Ebert: Materials Science and Engineering A 302 (2001), p.37-45
Prasad: Materials Science and Technology 9 (1993), p. 85-810
Gupta: Materials Science and Engineering A 528 (2011) p.3722-3729
Alexandrov.: Progress in Materials Science 45 (2000), p. 103-189
Beladi.: Materials Science and Engineering A 456 (2007), p.52-57
Prasad: Materials Science and Technology 9 (1993), p. 85-810
Gupta: Materials Science and Engineering A 528 (2011) p.3722-3729
Alexandrov.: Progress in Materials Science 45 (2000), p. 103-189
Beladi.: Materials Science and Engineering A 456 (2007), p.52-57
Online since: July 2015
Authors: Carlos Roberto Grandini, M.L. Lourenço, Diego Rafael Nespeque Correa, Pedro Akira Bazaglia Kuroda
Grandini: Materials Science and Engineering: C Vol. 34 (2014), p. 354-359
Yukawa: Bulletin of Materials Science Vol. 20 (1997), p. 805-815
Hsu: Materials Science and Engineering: C Vol. 32 (2012), p. 517-522
Semiatin: Materials Science and Engineering: A Vol. 243 (1998), p. 46-65
Lütjering: Materials Science and Engineering: A Vol. 243 (1998), p. 32-45
Yukawa: Bulletin of Materials Science Vol. 20 (1997), p. 805-815
Hsu: Materials Science and Engineering: C Vol. 32 (2012), p. 517-522
Semiatin: Materials Science and Engineering: A Vol. 243 (1998), p. 46-65
Lütjering: Materials Science and Engineering: A Vol. 243 (1998), p. 32-45
Online since: August 2014
Authors: Qi Tang Hao, Qiang Li, Shao Ping Lu, Hai Jun Wu, Ling Jiao Kong
Maijer, METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE 40A (2009) 991-999
Beckermann, METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE 38 (2007) 541-555
Wang, METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE 38 (2007) 533-540
Lee, MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING 391 (2005) 86-94
Metallurgical and Materials Transactions a-Physical Metallurgy and Materials Science, 2003. 34A(12): 2887-2899
Beckermann, METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE 38 (2007) 541-555
Wang, METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE 38 (2007) 533-540
Lee, MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING 391 (2005) 86-94
Metallurgical and Materials Transactions a-Physical Metallurgy and Materials Science, 2003. 34A(12): 2887-2899
Online since: July 2012
Authors: Hong Zhi Yang
Materials and methods
Flaxseed of Neiya 3 variety was purchased from Lanxi County Heilongjiang Province in June, 2007, being cleaned up before use.
Flaxseed meal was used as experimental materials after milling and defatting with n-hexane (1:6, w/v, 24 h).
The model and modelling process can be popularized and applied to other occasions because it is useful for the similar materials to model the similar dynamic process.
Proceedings of the North Dakota Academy of Science,10,18–22
Journal of the Science of Food and Agriculture, 80, 1033–1043
Flaxseed meal was used as experimental materials after milling and defatting with n-hexane (1:6, w/v, 24 h).
The model and modelling process can be popularized and applied to other occasions because it is useful for the similar materials to model the similar dynamic process.
Proceedings of the North Dakota Academy of Science,10,18–22
Journal of the Science of Food and Agriculture, 80, 1033–1043
Online since: November 2010
Authors: Zhen Luo, J.W. Zhang, Y.L. Li, J.D. Zhu, J. Hao
Hao1,2,e
1School of Material Science and Engineering, Tianjin University, China
2Tianjin Key Laboratory of Advanced Joining Technology,Tianjin University, China
3Key Laboratory of Advanced Ceramics and Machining Technology Ministry of Education, China
awozhangjianwujinji@163.com, blz@tju.edu.cn, blz@tju.edu.cn, blz@tju.edu.cn, blz@tju.edu.cn
Keywords: carbon nantubes, welding method, welded nanotube joint.
Introduction Since the discovery of the Carbon nanotubes (CNTs) in 1991, this nanoscale material has been enjoyed by many researchers.
Although a variety of CNTs have been recently synthesized in many ways, to implement these nanoscale building blocks for nanoscale electronics became a troublesome question[4],became of their extremely fine sizes and non-metallic materials feature, it is very different to installation and welding in this electronics blocks.
Experimental Materials.
Journal of Materials Processing Technology 190(2007), p.399 [4] J.Guo,S.Datta,M.Lundstrom,and M.P.Anantram,Multi-scale modeling of carbon nanotube transistors,J,Int.J.Multiscale Comp.Eng, 42 (2004), p. 258
Introduction Since the discovery of the Carbon nanotubes (CNTs) in 1991, this nanoscale material has been enjoyed by many researchers.
Although a variety of CNTs have been recently synthesized in many ways, to implement these nanoscale building blocks for nanoscale electronics became a troublesome question[4],became of their extremely fine sizes and non-metallic materials feature, it is very different to installation and welding in this electronics blocks.
Experimental Materials.
Journal of Materials Processing Technology 190(2007), p.399 [4] J.Guo,S.Datta,M.Lundstrom,and M.P.Anantram,Multi-scale modeling of carbon nanotube transistors,J,Int.J.Multiscale Comp.Eng, 42 (2004), p. 258
Online since: November 2012
Authors: Cheng Wu Shi, Xiao Ping Zhan, Xin Jie Shen, Yan Ru Zhang, Min Yao
Introduction
CdTe was one of the promising photovoltaic absorber materials due to the optimum band gap of 1.5 eV for the efficient photoelectric conversion, high optical absorption coefficient and successful development of high efficiency solar cells and modules [1].
Kaskel, CdTe nanoparticles for the deposition of CdTe films using close spaced sublimation, Journal of Crystal Growth 312 (2010) 2449-2453
Durose, Early stage growth mechanisms of CdTe thin films deposited by close space sublimation for solar cells, Solar Energy Materials & Solar Cells 95 (2011) 3165-3170
Zubia, CdTe thin film growth model under CSS conditions, Solar Energy Materials & Solar Cells 93 (2009) 15-18
Hernandez, Preparation and characterization of CdTe thin films, Solar Energy Materials and Solar Cells, 37 (1995) 273-281
Kaskel, CdTe nanoparticles for the deposition of CdTe films using close spaced sublimation, Journal of Crystal Growth 312 (2010) 2449-2453
Durose, Early stage growth mechanisms of CdTe thin films deposited by close space sublimation for solar cells, Solar Energy Materials & Solar Cells 95 (2011) 3165-3170
Zubia, CdTe thin film growth model under CSS conditions, Solar Energy Materials & Solar Cells 93 (2009) 15-18
Hernandez, Preparation and characterization of CdTe thin films, Solar Energy Materials and Solar Cells, 37 (1995) 273-281
Online since: July 2013
Authors: Yao Li, Jun Jie Yang, Ping Xue, Wu Xin Yu
Introductions
Electro plastic effect refers to a kind of phenomenon: deformation resistance decreases dramatically and plasticity rises obviously when materials (various kinds of metals, ceramics, super-conduction materials, powder metallurgy products) are conducted by active electrons (current or electric field)
Electro plastic effect generated by high energy impulse current is a compound effect and a result caused simultaneously by various of physic effects.
Contrast tension tests as to temperature were conducted, for the material would produce thermal effects when the currents were added.
Tensile strength decreased slightly, but the changes were very minute and were in the scope of normal test error compared to the elongation and strength of the material by adding impulse currents.
Acknowledgements This work is supported by general program of National Science Foundation of China, with Science Research Project No. 51071077.
[2] Li Yao, Dong Xiaohua, Electrosuperplastic Effect of Zn-22%Al Alloy, The Chinese Journal of Nonferrous Metals,1996, 6(3) 151-154 [3] K.Okazaki, M.Kagama, H.Conrad, An Evaluation of the Contributions of Skin, Pinchand Heating Effects to the Electroplastic Effect in Titanium.Materials, Science and Engineering, 1990, (45) 109-116 [4] National Standard of the People's Republic of China, Wrought Aluminium and Aluminium Alloy-Chemical Composition Limits GB/T 3190-1996 [5] H.Conrad, A.F.Sprecher, The Electroplastic Effect in Metals.Dislocation in Solids, Metal 1989, (8) 110-114
Contrast tension tests as to temperature were conducted, for the material would produce thermal effects when the currents were added.
Tensile strength decreased slightly, but the changes were very minute and were in the scope of normal test error compared to the elongation and strength of the material by adding impulse currents.
Acknowledgements This work is supported by general program of National Science Foundation of China, with Science Research Project No. 51071077.
[2] Li Yao, Dong Xiaohua, Electrosuperplastic Effect of Zn-22%Al Alloy, The Chinese Journal of Nonferrous Metals,1996, 6(3) 151-154 [3] K.Okazaki, M.Kagama, H.Conrad, An Evaluation of the Contributions of Skin, Pinchand Heating Effects to the Electroplastic Effect in Titanium.Materials, Science and Engineering, 1990, (45) 109-116 [4] National Standard of the People's Republic of China, Wrought Aluminium and Aluminium Alloy-Chemical Composition Limits GB/T 3190-1996 [5] H.Conrad, A.F.Sprecher, The Electroplastic Effect in Metals.Dislocation in Solids, Metal 1989, (8) 110-114
Online since: September 2013
Authors: Chuang Wu, Hao Chen, Wen Jiang Feng, Zhi Guo Zhang
Introduction
Electrocaloric (EC) materials have recently attracted considerable interest for use in solid-state cooling devices.
On the other hand, ferroelectric materials, such as Ba1-xSrxTiO3, Pb1-xSrxTiO3, etc., have been recognized for their importance as extraordinary functional materials due to their attractive dielectric properties, such as high dielectric constant, low dielectric loss, spontaneous polarization, and strong field dependence of dielectric constant.
Acknowledgement This work has been supported by the Outstanding Young Scholars Growth Plan of Liaoning Province under Grant No LJQ2011117, and the Science & Technology fund of Liaoning Province under No 2010220012.
Mathur: Science Vol. 311 (2006), p. 1270 [2] A.
Sci Vol 44 (2009), p. 5263 [6] Yinglong Wang, Tongru Wei, Baoting Liu, Lizhi Zhu, and Guangsheng Fu: Journal of Functional Materials Vol. 7 (2008), p. 1115
On the other hand, ferroelectric materials, such as Ba1-xSrxTiO3, Pb1-xSrxTiO3, etc., have been recognized for their importance as extraordinary functional materials due to their attractive dielectric properties, such as high dielectric constant, low dielectric loss, spontaneous polarization, and strong field dependence of dielectric constant.
Acknowledgement This work has been supported by the Outstanding Young Scholars Growth Plan of Liaoning Province under Grant No LJQ2011117, and the Science & Technology fund of Liaoning Province under No 2010220012.
Mathur: Science Vol. 311 (2006), p. 1270 [2] A.
Sci Vol 44 (2009), p. 5263 [6] Yinglong Wang, Tongru Wei, Baoting Liu, Lizhi Zhu, and Guangsheng Fu: Journal of Functional Materials Vol. 7 (2008), p. 1115