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Shvoong Home>Science>Architecture>THE MECHANISM OF EFFECT OF STRUCTURAL SPAN ON INTERMEDIATE CRACK-INDUCED DEBONDING Summary

THE MECHANISM OF EFFECT OF STRUCTURAL SPAN ON INTERMEDIATE CRACK-INDUCED DEBONDING

Article Summary   by:toffi_75     Original Authors: Hemdan SAID; Zhishen WU
  • Summary rating: 4 stars (6 Ratings)
  • Visits : 64
  • words:300 
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In the current paper, a finite element analysis based on the smeared crack model and interfacial fracture mechanics has been carried out to focus upon the effect of structural span on the intermediate crack-induced debonding. Considering that for structures with multi distributed cracks, local debonding at some points does not mean a complete debonding failure, the mechanism of debonding has been explained from the macroscopic point of view. Based on this consideration, it has been shown that at the same levels of midspan bending moments of FRP strengthened girders with same cross section, as the span length increases, the gradient of FRP stress distribution decreases. This implies that interfacial shear stress along the FRP-concrete interface decreases and consequently the possibility of debonding decreases.
Published: August 21, 2007   
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