COMPUATATIONAL ASPECTS OF MICROPLANE MODEL M4 FOR CONCRETE: DEFICIENCIES AND IMPROVEMENTS
This paper presents a comprehensive analysis on the numerical stability and robustness of the Microplane model M4 developed by Prof.Bazant and his coworkers, which is a sophisticated material model for concrete. Some important insufficiencies in the computational aspects of this model are discovered including: directional bias with the frequently used alternative for micro shear stress, dependence of model response on the strain increment magnitude, distinctly different model response with various integration schemes and significant loading direction dependence of the numerical results. These weaknesses must be eliminated in order to obtain reliable and accurate results in the nonlinear finite element calculation of reinforced concrete with this model. Some remedies are proposed in this paper though developing a novel numerical algorithm for the micro volumetric and deviatoric stresses and an enhanced integration scheme. The above deficiencies can be effectively removed with the new remedies.
concrete modeling Microplane model computational aspect numerical analysis
N V TUE J B LI G SCHENK S MUCHA T PUSCHEL
Leipzig University, Germany
国际会议
The 3rd International Conference on The Concrete Future(第三届混凝土未来国际会议)
烟台
英文
411-418
2008-10-17(万方平台首次上网日期,不代表论文的发表时间)