基于双尺度理论优化混凝土力学性能的研究

为了实现混凝土抗压强度及弹性模量的精细化数值计算,基于双尺度理论建立了混凝土双尺度数值模型.该理论以有限元方法为载体,通过正交试验对混凝土抗压强度和弹性模量的影响因素进行了分析,并进行了力学试验验证.研究结果表明:1)双尺度理论在混凝土数值模拟中的应用具有可行性,运用该方法的数值结果与试验结果差值在4.22％之内;2)...

Study on optimizing mechanical properties of concrete based on two-scale approach

In order to realize the refined calculation of concrete compressive strength and elastic modulus,a two-scale numerical model of concrete was established based on the two-scale approach.The finite element method was taken as the carrier of this approach,the influencing factors of concrete compressive strength and elastic modulus were analyzed through orthogonal experiment,and the result was verified by mechanical test.The results show that:1) the application of two-scale approach in numerical simulation of concrete materials is feasible,and the difference between the numerical results and the experimental results is within BF]4.22%BFQ];2) the compressive strength of concrete is significantly affected by meso parameters,and the influence proportion of mortar on the overall compressive strength is up to BF]24.35%BFQ];3) the elastic modulus of concrete is significantly affected by meso parameters,and the influence proportion of coarse aggregate on the overall elastic modulus is up to BF]6.55%BFQ].The effects of coarse aggregate,mortar,interface transition zone and pores in concrete on the overall performance is revealed through the research results,which provide new methods for the optimization and design of new concrete materials.