An X–FEM Technique for Modeling the FRP Strengthening of Concrete Arches with a Plastic–Damage Model; Numerical and Experimental Investigations

A. Khoei, T. Ahmadpour, Y. Navidtehrani
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Abstract

In this paper, an enriched–FEM method is presented based on the X-FEM technique by applying a damage–plasticity model to investigate the effect of FRP strengthening on the concrete arch. In this manner, the damage strain is lumped into the crack interface while the elastic and plastic strains are employed within the bulk volume of element. The damage stress–strain relation is converted to the traction separation law using an acoustic tensor. The interface between the FRP and concrete is modeled using a cohesive fracture model. The X-FEM technique is applied where the FE mesh is not necessary to be conformed to the fracture geometry, so the regular mesh is utilized independent of the position of the fracture. The accuracy of the proposed plastic-damage model is investigated under the monotonic tension, compression, and cyclic tension loading. Furthermore, the accuracy of the cohesive fracture model is investigated using the experimental data reported for the debonding test. In order to verify the accuracy of the proposed computational algorithm, the numerical results are compared with those of experimental data obtained from two tests conducted on reinforced concrete arches strengthened with FRP. Finally, a parametric study is performed by evaluating the effects of high to span ratio, longitudinal reinforcement ratio, and strengthening method.
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用塑性损伤模型模拟FRP加固混凝土拱的X-FEM技术数值与实验研究
本文在X-FEM技术的基础上,采用损伤-塑性模型研究FRP加固对混凝土拱的影响,提出了一种丰富的有限元方法。这样,损伤应变集中到裂纹界面,而弹塑性应变则在单元体积内。利用声张量将损伤应力-应变关系转化为牵引分离律。FRP与混凝土的界面采用内聚断裂模型进行建模。X-FEM技术应用于不需要符合断裂几何形状的有限元网格,因此使用规则网格与断裂的位置无关。在单调拉伸、压缩和循环拉伸载荷下,研究了所提出的塑性损伤模型的准确性。此外,利用脱粘试验报告的实验数据对内聚断裂模型的准确性进行了研究。为了验证所提计算算法的准确性,将数值结果与两次FRP加固钢筋混凝土拱的试验数据进行了比较。最后,通过对高跨比、纵向配筋率和加固方法的影响进行了参数化研究。
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