TY - GEN
T1 - Damage tolerance analyses in engineering practice
AU - Bortman, Jacob
AU - Yosibash, Zohar
AU - Alevi, Rotem
PY - 2013
Y1 - 2013
N2 - Maintenance of large constructions requires defining critical locations and inspection schedule. A critical structure was analyzed for initial flaws introduced during manufacturing. Since wind loadings were found to be critical, strain survey was conducted in relevant wind conditions. In order to investigate the loading, the structure was instrumented with gages and anemometer. The wind velocity and direction were correlated to the loadings. Maximum loads were applied to 3-D finite element models of the structure and the mixed mode stress intensity factors were extracted for different crack lengths. In each case, the crack propagation direction was calculated using the "effective" Stress Intensity Factor approach. Then, crack propagation analysis was performed. We were able to demonstrate that the maximum detected initial crack does not propagate to the critical crack length during four life times of the structure. Sensitivity studies were performed and the final conclusion was that it is safe to use the pre-cracked structure and catastrophic failure is not expected within the planned service life of the system. Since wind loadings are known to considerably affect the fatigue life of any structure, an in-field strain survey was conducted following the analysis in relevant wind conditions. The structure was instrumented with gages and anemometers. Wind velocity and direction were correlated to exerted load history so a more precise crack growth analysis could be performed.
AB - Maintenance of large constructions requires defining critical locations and inspection schedule. A critical structure was analyzed for initial flaws introduced during manufacturing. Since wind loadings were found to be critical, strain survey was conducted in relevant wind conditions. In order to investigate the loading, the structure was instrumented with gages and anemometer. The wind velocity and direction were correlated to the loadings. Maximum loads were applied to 3-D finite element models of the structure and the mixed mode stress intensity factors were extracted for different crack lengths. In each case, the crack propagation direction was calculated using the "effective" Stress Intensity Factor approach. Then, crack propagation analysis was performed. We were able to demonstrate that the maximum detected initial crack does not propagate to the critical crack length during four life times of the structure. Sensitivity studies were performed and the final conclusion was that it is safe to use the pre-cracked structure and catastrophic failure is not expected within the planned service life of the system. Since wind loadings are known to considerably affect the fatigue life of any structure, an in-field strain survey was conducted following the analysis in relevant wind conditions. The structure was instrumented with gages and anemometers. Wind velocity and direction were correlated to exerted load history so a more precise crack growth analysis could be performed.
UR - http://www.scopus.com/inward/record.url?scp=84905853296&partnerID=8YFLogxK
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AN - SCOPUS:84905853296
SN - 9781629939926
T3 - 10th International Conference on Condition Monitoring and Machinery Failure Prevention Technologies 2013, CM 2013 and MFPT 2013
SP - 363
EP - 372
BT - 10th International Conference on Condition Monitoring and Machinery Failure Prevention Technologies 2013, CM 2013 and MFPT 2013
PB - British Institute of Non-Destructive Testing
T2 - 10th International Conference on Condition Monitoring, CM 2013 and Machinery Failure Prevention Technologies 2013, MFPT 2013
Y2 - 18 June 2013 through 20 June 2013
ER -