New Tension-Compression Damage Model for Complex Analysis of Concrete Structures.

J. A. PAREDES; S. OLLER; A. BARBAT

JOURNAL OF ENGINEERING MECHANICS

ASCE-AMER SOC CIVIL ENGINEERS

Lugar: Reston, Virginia; Año: 2016 vol. 142

0733-9399

A new damage model, based on continuum damage mechanics and simulating the opening, closing, and reopening of cracks in concrete using only one surface of discontinuity, is proposed in this article. The model complies with the thermodynamics principles of nonreversible, isothermal, and adiabatic processes. Two scalar internal variables have been defined: a tensile damage variable dþ and a compressive damage variable d−; the threshold of damage is controlled by only one surface of discontinuity and a new parameter controlling the damage variable that should be activated. This new parameter represents the ratio of tensile stress to compressive stress in the damaged material. The continuity of response under complex loads, which is one of the aims of this work, is ensured. An adequate response under different types of loads leads to the conclusion that the proposed model provides a powerful tool to numerically analyze reinforced concrete structures. Validation and illustrative examples are included in the article