Abstract Three-dimensional (3D) woven composites have found extensive applications in
various areas, owing to the high resistance of impact and delamination, great design ability …

The present work focuses on geometrically exact finite elements for highly slender beams. It
aims at the proposal of novel formulations of Kirchhoff–Love type, a detailed review of …

The analysis of complex fibrous systems or materials on the micro-and nanoscale, which
have a high practical relevance for many technical or biological systems, requires accurate …

A brush type contactor has been proposed to detumble non-cooperative space targets.
Current researches mainly focused on the control schemes and their validations, whereas …

Many applications in computational physics involve approximating problems with
microstructure, characterized by multiple spatial scales in their data. However, these …

This work introduces a surface-to-surface contact description in the context of beam-to-beam
contact. The introduced contact description is formulated in the frame work of the absolute …

The present article proposes a partitioned Dirichlet‐Neumann algorithm, that allows to
address unique challenges arising from a novel mixed‐dimensional coupling of very slender …

In this work we present a novel computational method for embedding arbitrary curved one-
dimensional (1D) fibers into three-dimensional (3D) solid volumes, as eg in fiber-reinforced …

The present article proposes a mortar-type finite element formulation for consistently
embedding curved, slender beams into 3D solid volumes. Following the fundamental …

This paper describes the quasi-static formulation of frictionless line contact between flexible
beams by employing the mortar finite element approach. Contact constraints are enforced in …