Samuel W. Key scite author profile

Node-based uniform strain elements for three-node triangular and four-node tetrahedral meshes are presented. The elements use the linear interpolation functions of the original mesh, but each element is associated with a single node. As a result, a favourable constraint ratio for the volumetric response is obtained for problems in solid mechanics. The uniform strain elements do not require the introduction of additional degrees of freedom and their performance is shown to be signiÿcantly better than that of three-node triangular or four-node tetrahedral elements. In addition, nodes inside the boundary of the mesh are observed to exhibit superconvergent behaviour for a set of example problems. Published in

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Transient shell response by numerical time integration

Krieg

Key

1973

Numerical Meth Engineering

190

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In using the finite element method to compute a transient response, two choices must be made. First, some form of mass matrix must be decided upon. Either the consistent mass matrix prescribed by the finite element method can be employed or some form of diagonal mass matrix may be introduced. Secondly, some particular time integration procedure must be adopted. The procedures available divide themselves into two classes: the conditionally stable explicit schemes and the unconditionally or conditionally stable implicit schemes. The choices should be guided by both economy and accuracy. Using exact discrete solutions compared to the exact solutions of the differential equations, the results of these choices are displayed. Concrete examples of well‐matched methods, as well as ill‐matched methods, are identified and demonstrated. In particular, the diagonal mass matrix and the explicit central difference time integration method are shown to be a good combination in terms of accuracy and economy.

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A uniform nodal strain tetrahedron with isochoric stabilization

Gee

Dohrmann

Key

et al. 2008

Numerical Meth Engineering

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SUMMARYA stabilized node-based uniform strain tetrahedral element is presented and analyzed for finite deformation elasticity. The element is based on linear interpolation of a classical displacement-based tetrahedral element formulation but applies nodal averaging of the deformation gradient to improve mechanical behavior, especially in the regime of near-incompressibility where classical linear tetrahedral elements perform very poorly. This uniform strain approach adopted here exhibits spurious modes as has been previously reported in the literature. We present a new type of stabilization exploiting the circumstance that the instability in the formulation is related to the isochoric strain energy contribution only and we therefore present a stabilization based on an isochoric-volumetric splitting of the stress tensor. We demonstrate that by stabilizing the isochoric energy contributions only, reintroduction of volumetric locking through the stabilization can be avoided. The isochoric-volumetric splitting can be applied for all types of materials with only minor restrictions and leads to a formulation that demonstrates impressive performance in examples provided.

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A finite element procedure for the large deformation dynamic response of axisymmetric solids

Key¹

1974

Computer Methods in Applied Mechanics and Engineering

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Methods for connecting dissimilar three-dimensional finite element meshes

Dohrmann

Key

Heinstein

2000

Int. J. Numer. Meth. Engng.

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Samuel W. Key

Node-based uniform strain elements for three-node triangular and four-node tetrahedral meshes

Transient shell response by numerical time integration

A uniform nodal strain tetrahedron with isochoric stabilization

A finite element procedure for the large deformation dynamic response of axisymmetric solids

Methods for connecting dissimilar three-dimensional finite element meshes

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