Modeling the overhead power line post spring-damper using ADINA

Modeling the overhead power line post spring-damper using ADINA. Peabody, A. & McClure, G. In pages 1279 - 1283, Boston, MA, United states, 2005. Analytical techniques;Broken wires;Cable structure;Overhead power lines;Progressive failure;Shock load;Suspension insulators;Transmission structures;
abstract bibtex

A new method of reducing the shock loads on electric transmission structures due to broken wires and other longitudinal disturbances was invented. It consists of a post spring-damper assembly, which replaces the standard suspension insulator assembly that supports the conductor. The concept was developed through finite element dynamic modeling using ADINA. © 2005 Elsevier Ltd.

@inproceedings{20114014405971 ,
language = {English},
copyright = {Compilation and indexing terms, Copyright 2023 Elsevier Inc.},
copyright = {Compendex},
title = {Modeling the overhead power line post spring-damper using ADINA},
journal = {3rd M.I.T. Conference on Computational Fluid and Solid Mechanics},
author = {Peabody, A.B. and McClure, G.},
year = {2005},
pages = {1279 - 1283},
address = {Boston, MA, United states},
abstract = {A new method of reducing the shock loads on electric transmission structures due to broken wires and other longitudinal disturbances was invented. It consists of a post spring-damper assembly, which replaces the standard suspension insulator assembly that supports the conductor. The concept was developed through finite element dynamic modeling using ADINA. &copy; 2005 Elsevier Ltd.<br/>},
key = {Nonlinear analysis},
keywords = {Electric power transmission;Electric lines;Finite element method;},
note = {Analytical techniques;Broken wires;Cable structure;Overhead power lines;Progressive failure;Shock load;Suspension insulators;Transmission structures;},
}

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