Varying-order NURBS discretization: An accurate and efficient method for isogeometric analysis of large deformation contact problems
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In this paper, a novel varying order NURBS discretization method is proposed to enhance the performance of isogeometric analysis within the framework of computational contact mechanics. The method makes use of higher-order NURBS for contact integral evaluations. Lower-orders NURBS capable of modelling complex geometries exactly are utilized for the bulk discretization. This unexplored idea provides the possibility to refine the geometry through controllable order elevation strategy for isogeometric analysis. To achieve this, a higher-order NURBS layer is used as the contact boundary layer of the bodies. The NURBS layer is constructed using the surface refinement strategies such that it is accompanied by a large number of additional degrees of freedom and matches with the bulk parametrization. The validity of the presented isogeometric mortar contact formulation with varying-order NURBS discretization is first examined through the contact patch test. The capabilities and benefits of the proposed methodology are then demonstrated in detail using two-dimensional frictionless and frictional contact problems, considering both small and large deformations. It is shown that using the proposed method, accurate solutions can be achieved even with a coarse mesh. It is also shown that the current method requires a considerably lower computational cost compared to standard NURBS discretization while retaining robustness and stability. The simplicity of the method lends itself to be conveniently embedded in an existing isogeometric contact code after only a few minor modifications.
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