A New Type of Phase-to-Phase Spacer

Wei Kong; Yu Xin Wang; Yan Song Wang

doi:10.4028/www.scientific.net/AMM.459.637

Paper Titles

Case Study for Rectangular Composite Panel Zone
p.614

Orthogonal Expansion Method of Random Processes for Fluctuating Pressure of Water Flow
p.619

Finite Element Model of High-Voltage Transmission Tower Confirmed
p.625

Gobi Inclined Excavation Based Numerical Analysis
p.631

A New Type of Phase-to-Phase Spacer
p.637

The Numerical Simulation Analysis of Transmission Lines New Composite Type Foundation
p.641

Dynamic Stability Analysis of the Tower Structure of Construction Elevators
p.646

Laboratory Experiments on Effects of Water Jet on Heat-Affected Concretes
p.650

Development of High Compressive Strength Fire Brick
p.658

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 459A New Type of Phase-to-Phase Spacer

A New Type of Phase-to-Phase Spacer

Abstract:

In order to reduce the damage caused by conductor galloping, this paper developed a new type of phase to-phase spacer, called shape memory alloy of phase to-phase spacer. Hanging the sensor on the transmission line fixed with new type of phase to-phase spacer and the ordinary phase to-phase spacer respectively, use the sensor to measure the amplitude of the two types of phase to-phase spacer, comparing and analysing the two types of phase to-phase spacer. Through the analysis of the data, we can draw a conclusion that the new type of phase to-phase spacer has a better damping effect than the ordinary phase to-phase spacer, it can reduce the damage caused by conductor galloping more effectively, this research is the first in the domestic.

You might also be interested in these eBooks

Applied Mechanics and Mechanical Engineering IV

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 459)

Pages:

637-640

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.459.637

Citation:

Cite this paper

Online since:

October 2013

Authors:

Wei Kong*, Yu Xin Wang, Yan Song Wang

Keywords:

Amplitude, Damper, Phase To-Phase Spacer, Shape Alloy

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Huaining Chen, Wei Wang. Six divided the development of the damping rod between transmission lines. Northwest electric power technology, 2007, 06.

Google Scholar

[2] Hongnan Li, Hui Qian. A new kind of SMA damper experiment and numerical simulation research. Journal of vibration engineering, 2007, 21.

Google Scholar

[3] Chong Wei, Shao cheng Pan. 500 kv transmission line dancing, analysis and management. Power construction. 2011, 04.

Google Scholar

[4] Rongjun Ji. 330 kv and flexible composite insulation interval rods. Grid technology. 2006, 12.

Google Scholar

[5] Shaohua Wang, Xingliang Jiang. Ice wave characteristics and dynamic tension caused by wire conductor. Journal of electrotechnics. 2012, 01.

Google Scholar

[6] Shi Yan, Qi Wang. Super elastic shape memory alloy wire mechanical property test. Journal of shenyang architecture university, 2010, 03.

Google Scholar

[7] Qiquan Li, Shan Qi. NiTiThe research progress of superelastic shape memory alloy. Metal heat treatment abroad, 2003, 04.

Google Scholar

[8] LiFeng Ni, Qiusheng Li. Experimental study of the new type of shape memory alloy damper. Earthquake engineering and engineering vibration2002, 03.

Google Scholar