Probabilistic Design Models for Ultimate Strength and Strain of FRP-Confined Concrete

Volume: 20, Issue: 6
Published: Dec 1, 2016
Abstract
This paper presents a probabilistic procedure for deriving design models for the ultimate strength and strain of fiber–reinforced-polymer (FRP)-confined concrete. First, a large database of axial compression tests performed on circular FRP-confined concrete specimens is collected for calibrating an ultimate strength model, based on the Drucker-Prager criterion, and an ultimate strain model, based on the ultimate dilation rate. The database is...
Paper Details
Title
Probabilistic Design Models for Ultimate Strength and Strain of FRP-Confined Concrete
Published Date
Dec 1, 2016
Volume
20
Issue
6
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