Effect of Testing Method and Strain Rate on Stress-Strain Behavior of Concrete

AbstractThe flexural behavior of concrete is often different from its behavior under direct tension. This paper presents an experimental program aimed at the testing method and strain rate effects on the tensile behavior of concrete. Concrete specimens were tested with different testing methods (dir...

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Bibliographic Details
Published in:Journal of materials in civil engineering 2013-11, Vol.25 (11), p.1752-1761
Main Authors: Chen, Xudong, Wu, Shengxing, Zhou, Jikai, Chen, Yuzhi, Qin, Aiping
Format: Article
Language:English
Subjects:
Applied sciences
Buildings. Public works
Concretes
Concretes. Mortars. Grouts
Dynamics
Exact sciences and technology
General (composition, classification, performance, standards, patents, etc.)
Materials
Mathematical models
Strain rate
Strength of materials (elasticity, plasticity, buckling, etc.)
Stress strain curves
Stress-strain relationships
Stresses
Structural analysis. Stresses
Technical Papers
Test procedures
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Summary:AbstractThe flexural behavior of concrete is often different from its behavior under direct tension. This paper presents an experimental program aimed at the testing method and strain rate effects on the tensile behavior of concrete. Concrete specimens were tested with different testing methods (direct tension and four-point loading) and four strain rates (10−6, 10–5, 10–4, and 10−3  s−1). The results show that the peak stresses increase with an increase in the strain rate; the strain rate dependence of the peak stress is stronger for direct tensile specimens than for four-point loading specimens. The dynamic increase factor is expressed as a function of the strain rate and highly stressed volume method. The continuous damage model is also used to predict the strain rate effects on the ascending stress-strain behavior of concrete. Using the model parameters for the stress-strain curve of concrete at a static strain rate, the stress-strain curves of concrete for dynamic strain rates in four-point loading and direct tension are satisfactorily predicted.
ISSN:0899-1561
1943-5533
DOI:10.1061/(ASCE)MT.1943-5533.0000732