Parametric Study of the SUR Method for the Simulation of Quasi-Brittle Materials

Waled Alnaas; Abdussalam  Rifai; Lamen  Sryh

doi:10.36602/ijeit.v7i2.184

Authors

Waled F. Alnaas Department of Civil Engineering, Faculty of Engineering, Elmergib University, Libya
Abdussalam M. Rifai Department of Civil Engineering, Faculty of Engineering, Elmergib University, Libya
Lamen S. Sryh Department of Civil Engineering, Faculty of Engineering, Elmergib University, Libya

DOI:

https://doi.org/10.36602/ijeit.v7i2.184

Keywords:

Nonlinear finite element analysis, smooth unloading-reloading method, quasi-brittle materials, damage model

Abstract

In this paper, the authors study the influence the
form of the smooth unloading-reloading function on the
nonlinear solution characteristics of the recently developed
smooth unloading-reloading (SUR) approach for nonlinear
finite element simulation of quasi-brittle materials. The
SUR method uses a target function and a smooth unloadingreloading
function to compute an approximate tangent
matrix with an incremental-iterative Newtown type solution
scheme. The smooth unloading-reloading function has two
main parameters p a and ν which affect the form of the SUR
function. The study is illustrated using different values of
the two main parameters of the SUR curve. A Mathcad code
has been written to carry out the nonlinear finite element
analysis of the numerical example presented in this paper.

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Parametric Study of the SUR Method for the Simulation of Quasi-Brittle Materials

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