所属单位：土木工程学院

发表刊物：Engineering Structures

关键字：中文关键字：冻融循环；钢筋混凝土剪力墙；抗震性能，英文关键字：Freeze-thaw cycles; Squat reinforced concrete shea

摘要：An experimental study was undertaken to investigate the influence of freeze-thaw cycles (FTCs) on the seismic performance of shear wall specimens. Four identical squat reinforced concrete (RC) shear wall specimens were tested; three were subjected to 100, 200 and 300 FTCs, and the other one was left undisturbed and used as a control specimen. The shear wall specimens were loaded in a reverse cyclic manner, and the principal damage states were investigated throughout the testing process. The responses of the wall specimens were initially dominated by flexural cracking but gradually changed to shear cracking; the damage patterns of the wall specimens gradually changed from diagonal tensile failure to compressive failure, as the number of FTCs increased. Based on the test results of this study, the effects of FTCs on the damage characteristics, hysteretic behavior, ductility, secant stiffness degradation, strength degradation and energy dissipation capacity of the samples were analyzed. The test results indicate that FTCs have significant effects on the seismic performances of shear walls. As the number of FTCs increases, the load-carrying capacity decreases significantly, and the contribution of shear deformation increases significantly. Specimens experiencing more FTCs tend to have larger ductility coefficients and plastic rotation magnitudes. Note that the energy dissipation coefficient and cumulative hysteretic dissipation energy are more sensitive to changes in the number of FTCs than the work index.

合写作者：张德义,孙龙飞,甘传磊

第一作者：郑山锁,杨威

论文类型：期刊论文

卷号：卷：124

期号：期：6

页面范围：页：49-63

是否译文：否

发表时间：2016-06-01