Thermal methods represent a valid support to study in detail fatigue behavior of materials. Both the reduction of time and costs of the experimental campaign and the possibility to assess damage phenomena correlated to dissipative heat sources developed during fatigue. The work aims to perform the fatigue characterization of GFRP composite materials by adopting a novel and rapid procedure for assessing endurance limit. The proposed method involves a multi-parameter analysis to attain several index related to the damage phenomena which fit well with those provided by the conventional procedures.
Fatigue Limit Evaluation of Composite Materials by Means of TSA
Demelio, G. P.;De Finis, R.
;Galietti, U.;
2016-01-01
Abstract
Thermal methods represent a valid support to study in detail fatigue behavior of materials. Both the reduction of time and costs of the experimental campaign and the possibility to assess damage phenomena correlated to dissipative heat sources developed during fatigue. The work aims to perform the fatigue characterization of GFRP composite materials by adopting a novel and rapid procedure for assessing endurance limit. The proposed method involves a multi-parameter analysis to attain several index related to the damage phenomena which fit well with those provided by the conventional procedures.File in questo prodotto:
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