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Influence of block arrangement on mechanical performance in topological interlocking assemblies: A study of the versatile block

Topological interlocking assemblies (TIA) are arrangements of blocks kinematically constrained by a fixed frame, such that all rigid body motions of each block are prevented by the neighbouring blocks and the frame. In the literature, several blocks are introduced that can be arranged into interlock...

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Published in:	International journal of solids and structures 2025-01, Vol.306, p.113102, Article 113102
Main Authors:	Goertzen, Tom, Macek, Domen, Schnelle, Lukas, Weiß, Meike, Reese, Stefanie, Holthusen, Hagen, Niemeyer, Alice C.
Format:	Article
Language:	English
Subjects:	Directional blocking graphs FEM Interlocking flows Mechanical investigation Topological interlocking Versatile block Wallpaper symmetries
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creator	Goertzen, Tom Macek, Domen Schnelle, Lukas Weiß, Meike Reese, Stefanie Holthusen, Hagen Niemeyer, Alice C.
description	Topological interlocking assemblies (TIA) are arrangements of blocks kinematically constrained by a fixed frame, such that all rigid body motions of each block are prevented by the neighbouring blocks and the frame. In the literature, several blocks are introduced that can be arranged into interlocking assemblies, however only few of them can be arranged in non-unique ways. This study investigates a particularly versatile interlocking block called the Versatile Block: this block can be arranged in three different doubly periodic ways given by wallpaper symmetries. We investigate the hypothesis that the arrangement of copies of the same block influences the mechanical response of a TIA. We examine the interlocking mechanism and the correlation between arrangement and overall structural performance in planar TIA consisting of the Versatile Block. Furthermore, we analyse load transfer mechanisms within the assemblies and from the assemblies onto the frame. For fast apriori evaluation of the load transfer onto the frame we introduce a combinatorial model called Interlocking Flows. To investigate our assemblies from a mechanical point of view we conduct several finite element studies. These reveal a strong influence of arrangement on the structural behaviour, for instance, an impact on both the point and amount of maximum deflection under a given load, thereby confirming our hypothesis. We also evaluate the accuracy of the proposed Interlocking Flow model by a comparison with the finite element simulations. •Three different symmetric arrangements of Versatile Block studied.•Introduced novel combinatorial tool ‘Interlocking Flows’ for fast evaluation of assemblies.•FEM investigations: arrangement significantly impacts structural behaviour of assemblies.•‘Interlocking Flows’ predict load transfer patterns accurately.•Interlocking mechanism of the Versatile Block investigated.
doi_str_mv	10.1016/j.ijsolstr.2024.113102
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subjects	Directional blocking graphs FEM Interlocking flows Mechanical investigation Topological interlocking Versatile block Wallpaper symmetries
title	Influence of block arrangement on mechanical performance in topological interlocking assemblies: A study of the versatile block
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