In an Qverhead power transmission line (0.H.L.), the conductors represent a very important and
expensive component and the most susceptible to failures due mainly to fatigue under aeolian
vibrations.
The know-how of today in this concern is characterized by the combination of field tests which deliver
the actual vibration frequencies and vibration amplitudes with laboratory tests which lead to the
material response under these conditions.
These test procedures help to preventive maintenance as well as to the redesign or design of lines with
improved reliability.
The report recalls the principles of aeolian vibrations (observations, conductor response to wind), and
gives a description of measuring methods on the field and in the laborat01y, with some applications.
%0 Journal Article
%1 wolfsimproved
%A Wolfs, M
%A MOUCHARD, P
%A BOCKNER, W
%D -
%K Line Overhead
%T IMPROVED RELIABILITY OF OVERHEAD LINES BY CONTROLLING THE AEOLIAN VIBRATIONS OF CONDUCTORS
%X In an Qverhead power transmission line (0.H.L.), the conductors represent a very important and
expensive component and the most susceptible to failures due mainly to fatigue under aeolian
vibrations.
The know-how of today in this concern is characterized by the combination of field tests which deliver
the actual vibration frequencies and vibration amplitudes with laboratory tests which lead to the
material response under these conditions.
These test procedures help to preventive maintenance as well as to the redesign or design of lines with
improved reliability.
The report recalls the principles of aeolian vibrations (observations, conductor response to wind), and
gives a description of measuring methods on the field and in the laborat01y, with some applications.
@article{wolfsimproved,
abstract = {In an Qverhead power transmission line (0.H.L.), the conductors represent a very important and
expensive component and the most susceptible to failures due mainly to fatigue under aeolian
vibrations.
The know-how of today in this concern is characterized by the combination of field tests which deliver
the actual vibration frequencies and vibration amplitudes with laboratory tests which lead to the
material response under these conditions.
These test procedures help to preventive maintenance as well as to the redesign or design of lines with
improved reliability.
The report recalls the principles of aeolian vibrations (observations, conductor response to wind), and
gives a description of measuring methods on the field and in the laborat01y, with some applications.
},
added-at = {2020-06-01T16:35:19.000+0200},
author = {Wolfs, M and MOUCHARD, P and BOCKNER, W},
biburl = {https://www.bibsonomy.org/bibtex/228df1b0755e8bf47b84722150db0537e/ceps},
interhash = {18bd9919406ecb667d0a553314e4e85c},
intrahash = {28df1b0755e8bf47b84722150db0537e},
keywords = {Line Overhead},
timestamp = {2023-12-21T08:40:28.000+0100},
title = {IMPROVED RELIABILITY OF OVERHEAD LINES BY CONTROLLING THE AEOLIAN VIBRATIONS OF CONDUCTORS},
year = {-}
}