4.4 Article

Experimental and Numerical Study on Mixed Mode I-II Fatigue Crack Propagation in Concrete

Journal

JOURNAL OF ENGINEERING MECHANICS
Volume 148, Issue 9, Pages -

Publisher

ASCE-AMER SOC CIVIL ENGINEERS
DOI: 10.1061/(ASCE)EM.1943-7889.0002135

Keywords

Concrete; Mixed mode I-II fatigue fracture; Fatigue crack propagation; Digital image correlation (DIC) method; Numerical simulation

Funding

  1. National Natural Science Foundation of China [52079021]

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This paper proposes a numerical method for mixed mode I-II fatigue crack propagation in concrete. Experimental validation shows that the proposed method is applicable. Additionally, it is found that the mixed mode I-II fatigue failure of concrete occurs when the mode I stress intensity factor reaches a critical value, regardless of the fatigue load level and the fatigue life. Numerical results indicate that the mixed mode I-II fatigue crack propagation path is independent of the fatigue load level.
To ensure the safety of concrete structures under fatigue loading, the fatigue crack propagation in concrete needs to be evaluated accurately. In this paper, a numerical method for mixed mode I-II fatigue crack propagation in concrete is proposed, in which the stress intensity factor (SIF)-based crack propagation criterion is employed, and the degradation of the cohesive force under fatigue loading is considered quantitatively. To validate the applicability of the numerical method, the mixed mode I-II fatigue fracture test of the three-point bending (TPB) beam is conducted. The fatigue crack propagation length is measured with the digital image correlation (DIC) method. Eventually, the applicability of the numerical method is validated by a reasonable agreement between the numerically derived crack propagation path, crack mouth opening displacement (CMOD), crack mouth sliding displacement (CMSD), crack propagation length, and mode I SIF and the experimental results. It is concluded that the proposed numerical method can be used to evaluate the mixed mode I-II fatigue crack propagation process of concrete when the initial fracture toughness, Poisson's ratio, and Young's modulus under static loading and the tension-softening constitutive relation under fatigue loading are given. In addition, the experimental results indicate that the mixed mode I-II fatigue failure of concrete occurs when the mode I SIF reaches a critical value, regardless of the fatigue load level and the fatigue life. The numerical results show that the mixed mode I-II fatigue crack propagation path is independent of the fatigue load level and approximately identical to that under static loading.

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