Title : ( Prediction of long-term creep behavior of blade by time-stress superposition principle(TSSP) modeling )
Authors: Samaneh Sahebian , nadia nosrati , Ahad Zabett ,
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Abstract
Rotor blades are vulnerable portion of wind turbine. Researches have shown the delamination of composite due to fatigue and creep lead to failure of wind turbine rotor1. Besides, According to the DNV GL standard related to design the wind turbine, creep failure mode at a T-bolt in the root joint is one of the failure mechanism that may occur in wind turbine blades2. Even if the creep fracture does not occur, slow creep deformation lead to decrease the effective performance of the structure in the long time. Therefore, the investigation of long-term creep behavior of the FRP composites is an important subject to design the wind turbine blades. Long-term creep tests are impractical3 and need high cost. Therefore researchers prefer to use the modeling methods. Time-stress superposition principle (TSSP) is the main model that was used to predict long term creep behavior of linear viscoelastic polymers4.
Keywords
, CREEP BEHAVIOR, time-stress superposition principle
@inproceedings{paperid:1072583,
author = {Sahebian, Samaneh and Nosrati, Nadia and Zabett, Ahad},
title = {Prediction of long-term creep behavior of blade by time-stress superposition principle(TSSP) modeling},
booktitle = {WindEurope Conference 2018},
year = {2018},
location = {GERMANY},
keywords = {CREEP BEHAVIOR; time-stress superposition principle},
}
%0 Conference Proceedings
%T Prediction of long-term creep behavior of blade by time-stress superposition principle(TSSP) modeling
%A Sahebian, Samaneh
%A Nosrati, Nadia
%A Zabett, Ahad
%J WindEurope Conference 2018
%D 2018
