高温后型钢再生混凝土梁受弯研究

Working mechanism analysis of steel reinforced recycled aggregate concrete beams after high temperature

  • 摘要: 为了研究型钢再生混凝土(SRRAC)梁高温之后受弯的力学性能,通过利用ABAQUS有限元分析软件建立了高温作用后型钢再生混凝土梁受弯的有限元模拟模型,对截面温度场及剩余承载力进行分析,并和现有的有关实验数据进行对比验证。分析了受火时温度、再生粗骨料取代率、混凝土强度、型钢屈服强度、截面含钢率对剩余承载力的影响。在模型正确的基础上进行了梁工作性能,破坏模态的机理分析。结果表明:型钢再生混凝土的取代率对型钢再生混凝土的承载力有部分影响,取代率的增加可以提升再生混凝土的承载力,构件的承载力主要跟受火温度有关,受火200℃的构件承载力减低了10%~15%,受火600℃的构件承载力降低了20%~25%。该文的研究结果对高温后型钢再生混凝土的工作机理有了更深的研究。根据取代率和受火温度可以判断型钢再生混凝土梁的极限承载力的变化情况。

     

    Abstract: In order to investigate the flexural behavior of steel recycled concrete (SRRAC) beams after high temperature, finite element model is established using ABAQUS. The temperature field and residual bearing capacity of the section are analyzed, and are compared with the experimental data. The influences of temperature, recycled coarse aggregate replacement ratio, concrete strength, yield strength, section steel ratio and shear span ratio on residual bearing capacity are analyzed. On the basis of the model, the performance of the beam is studied. The results show that the replacement rate of recycled steel concrete has partial influence on the bearing capacity of recycled steel concrete. Increase of substitution rate can increase the bearing capacity of recycled concrete. The bearing capacity of the component is mainly related to the fire temperature. The carrying capacity of the component under fire at 200 DEG C is reduced by 10%~15%, and the carrying capacity of the component under fire at 600 DEG C is reduced by 20%~25%. This study have further studied the working mechanism of recycled steel concrete after high temperature. The ultimate bearing capacity of recycled steel concrete beams can be estimated according to the replacement rate and the fire temperature.

     

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