Optimum Design and Simulation on Conductive Ring

Jin Chuan Yang; Zhi Hui Yao; Xi Gui Wang

doi:10.4028/www.scientific.net/AMM.556-562.1830

Paper Titles

Research on Microgrid Frequency Control With Droop Characteristic Based on Lagrange Interpolation
p.1814

Design of Wind-Solar-Diesel-Battery Hybrid Power System
p.1818

The Analysis and Suppression of Harmonics on the AC Side of HVDC Transmission System
p.1822

Novel Optimal Configuration of Multiple Hybrid Energy Etorage Combained with Wind Farm in Smart Grid
p.1826

Optimum Design and Simulation on Conductive Ring
p.1830

Optimal Load Scheduling in Smart Grid Considering Environmental Factors
p.1834

Implementation and Application of Short-Time Fourier Transform on a New High Speed FPGA
p.1838

A Low-Cost Low-Power Capacitive Humidity Sensor in CMOS Technology
p.1842

A Capacitive Humidity Sensor for Low-Cost Low-Power Application
p.1847

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 556-562Optimum Design and Simulation on Conductive Ring

Optimum Design and Simulation on Conductive Ring

Abstract:

A new optimum design process is established by mathematical model in this paper based on the theory of material mechanics and electricity. According to optimization,the conductive ring device is designed. Based on virtual modeling under abaqus, the simulation validation of experimental design is carried out.contact resistance is calculated under contact states. A series of data measured in simulation shows that this final optimum design of conductive ring has a better performance than the experimental design in physical properties.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 556-562)

Pages:

1830-1833

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.556-562.1830

Citation:

Cite this paper

Online since:

May 2014

Authors:

Jin Chuan Yang*, Zhi Hui Yao, Xi Gui Wang

Keywords:

ABAQUS, Conductive Ring, Optimization, Simulation

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Zongmei. Zhang: Missiles and Space Vehicles, Vol. 6 (1981) No. 6, p.37.

Google Scholar

[2] Henggao. Ding: Inertial Navigation and Instrument, Vol. 1 (1982) No. 1, pp.7-13.

Google Scholar

[3] Chuncheng Gao, The Design and Experimental Study of Novel Roll Ring that Transmits Electrity, (MS, Harbin Institute of Technology, China 1996), pp.2-7.

Google Scholar

[4] Chunli Cheng, Electrical Contact Theory and Application (Wuhan University of Technology Press, China 1992).

Google Scholar

[5] Delin. Ma: Ordnance Material Science and Engineering, Vol. 2 (1989) No. 2, pp.11-24.

Google Scholar

[6] Evans, Charles A. Jr. and Richard Blattner: Annual Review Inc, Vol. 11 (1978) , p.199.

Google Scholar

[7] Sperry Corporation, Roll Ring Assembles for Space Station (Sperry Corporation Publication, USA 1981).

Google Scholar

[8] Milenko Braunovic, Valery V. Konchits, Mikolai K. Myshkin, Electrical Contact Theory, Application and Technology (China Machine Press, China 2010).

Google Scholar

[9] Baozhu Liu, Matlab7. 0 and Application (Posts & Telecom Press, China 2010).

Google Scholar

[10] Yiping Shi, Yurong Zhou, Finite Element Analysis of Abaqus (China Machine Press, China 2006).

Google Scholar