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It is well known to civil engineers that fatigue leads to the bulk of structural failures. In plain and reinforced concrete structures, fatigue might account for excessive deformation, excessive of crack widths, de-bonding of reinforcement and rupture of the reinforcement, all of these can lead to structural collapse. Fatigue crack propagation can be a method to predict a remaining life of structures. Herein I will show some works that have been done in order to analyze the fatigue crack growth for plain concrete specimens. The goals of this study are to estimate the critical crack length and…mehr

Produktbeschreibung
It is well known to civil engineers that fatigue leads to the bulk of structural failures. In plain and reinforced concrete structures, fatigue might account for excessive deformation, excessive of crack widths, de-bonding of reinforcement and rupture of the reinforcement, all of these can lead to structural collapse. Fatigue crack propagation can be a method to predict a remaining life of structures. Herein I will show some works that have been done in order to analyze the fatigue crack growth for plain concrete specimens. The goals of this study are to estimate the critical crack length and remaining life of a plain concrete specimen determine the state of the specimen either having failed or being safe using first order reliability method (FORM) and assess which parameter has most influence on the reliability index.
Autorenporträt
I was born in Misurata, Libya. After I finished my high school, I entered university of Libya in 1998. I received my bachelor's of science degree in civil engineering in 2003. Earning a scholarship from Libya Ministry in 2007 helped me to finish my master degree in civil engineering at The University of Texas in 2010 and continue in PhD program.