论文信息 - Tensile fracture properties of an Ultra High Performance Fiber Reinforced Concrete (UHPFRC) with steel fiber

Tensile fracture properties of an Ultra High Performance Fiber Reinforced Concrete (UHPFRC) with steel fiber

This paper presents a study of the tensile fracture properties of Ultra High Performance Fiber Reinforced Concrete (UHPFRC) considering the effects of the fiber content. To investigate the impact of fiber content, notched 3-point bending tests were executed, where the fiber volume ratio was varied from 0% to 5%. From the bending tests, it was found that the flexural tensile strength of UHPFRC linearly increases with increasing fiber volume ratio and the rule of mixture can be applied to UHPFRC. Furthermore, an inverse analysis was performed to determine the tensile fracture model of UHPFRC and a tri-linear tensile softening model is suggested. The suggested model successfully represents the increase of the stress-constant bridging zone and the decrease of the stress-resisting zone with increasing fiber content. The proposed model for various fiber content levels is simple and versatile and can be readily applied to structural design or numerical analysis of UHPFRC.

[1] E. Brühwiler,et al. Development of the mechanical properties of an Ultra-High Performance Fiber Reinforced Concrete (UHPFRC) , 2006 .

[2] Yoshinori Kitsutaka,et al. EVALUATION OF ELASTO-PLASTIC FRACTURE PARAMETERS FOR CONCRETE BASED ON POLY-LINEAR APPROXIMATION ANALYSIS OF TENSION SOFTENING DIAGRAM , 1995 .

[3] B. Vijaya Rangan,et al. Fiber Reinforced Concrete Properties , 1971 .

[4] P. Richard,et al. Composition of reactive powder concretes , 1995 .

[5] Eugen Brühwiler,et al. Permeability of UHPFRC under high stresses , 2004 .

[6] P. S. Mangat,et al. The Mechanics of Fiber Reinforcement of Cement Matrices , 1974 .

[7] Yoshinori Kitsutaka,et al. Fracture Parameters by Polylinear Tension-Softening Analysis , 1997 .

[8] E. Brühwiler,et al. Fracture energy and strain softening of concrete as determined by means of compact tension specimens , 1988 .

[9] Yiu-Wing Mai,et al. Strength and fracture properties of asbestos-cement mortar composites , 1979 .

[10] Antoine E. Naaman,et al. A statistical theory of strength for fiber reinforced concrete , 1972 .

[11] Eugen Brühwiler,et al. Model for predicting the UHPFRC tensile hardening response , 2008 .

[12] Pierre Rossi,et al. Bending and compressive behaviours of a new cement composite , 2005 .