The focus of the present article lies on new enhanced beam finite element formulations in
the absolute nodal coordinate formulation (ANCF) and its embedding in the available …

This article details the ESAFORM Benchmark 2021. The deep drawing cup of a 1 mm thick,
AA 6016-T4 sheet with a strong cube texture was simulated by 11 teams relying on …

Finite element analysis (FEA) is an extensively exercised numerical procedure to address
numerous problems in several engineering fields. However, the accuracy of conventional …

In this paper, we investigate fracture in shells with a phase-field modeling approach. The
shell model is based on solid-shell kinematics with small rotations and displacements and is …

In this contribution we provide benchmark problems in the field of computational solid
mechanics. In detail, we address classical fields as elasticity, incompressibility, material …

In this paper we address the extension of a recently proposed reduced integration eight‐
node solid‐shell finite element to large deformations. The element requires only one …

In this work an isogeometric solid-shell model for geometrically nonlinear analyses is
proposed. It is based on a linear interpolation through the thickness and a NURBS …

This paper presents a consistent anisotropic damage model for laminated fiber-reinforced
composites relying on the 3D-version of the Puck failure criterion. The current model is …

We present a mixed integration point (MIP) formulation for hyperelastic isogeometric
Kirchhoff–Love shells. While previous works have proposed mixed integration point …

To efficiently predict the crack propagation in thin-walled structures, a global–local approach
for phase field modeling using large-deformation solid shell finite elements considering the …