Stress-Strain Relations of High-Strength Concrete under Triaxial Compression

by Xiaobin Lu, Struct. Engr.; The Thornton and Tomasetti Group, 24 Commerce St., 8th Floor, Newark, NJ 07102., x17@njit.edu,
Cheng-Tzu Thomas Hsu, (corresponding author), (F.ASCE), Prof. and Dir. of Structures Laboratories; Dept. of Civ. and Envir. Engrg., New Jersey Inst. of Technol., University Heights, Newark, NJ 07102, hsuctt@hotmail.com,


Serial Information: Issue 3, Pg. 261-268


Document Type: Journal Paper

Abstract: Three types of stress-strain relations of high-strength concrete under triaxial compression, axial stress–axial and lateral strain, octahedral normal stress–volume change, and octahedral shear stress-strain curves, are studied in this paper. The influence of different load paths is also addressed. The Saenz equation is found to be appropriate to represent the octahedral shear stress-strain relation of high-strength concrete under low confining pressures. A relation between peak octahedral shear stress and peak octahedral shear strain is developed, which can be used to define the peak point on the curve from the peak stresses obtained from the stress failure surface. The high-strength concrete is found to experience degradation in elastic and shear modulus in cyclic loading under triaxial compression.

Subject Headings: High-strength concrete | Stress strain relations | Triaxial loads | Shear stress | Compression | Shear modulus | Curvature | Axial forces |

Services: Buy this book/Buy this article

 

Return to search