Litcius/Paper detail

Automatic multi-leaf nonperiodic block-by-block pattern generation and computational analysis of historical masonry structures

M. Pereira, Antonio Maria D’Altri, Stefano de Miranda, Branko Glišić

2023Engineering Structures27 citationsDOIOpen Access PDF

Abstract

In this paper, an automatic block-by-block pattern generator is proposed for multi-leaf nonperiodic masonries. The outcome is then directly employed in block-based computational analysis of full-scale historical masonry structures. Given the 3D volume of the structure (obtainable also from point clouds) and the 3D block definition of a sample, both in terms of voxels, the volume of the structure is automatically filled with blocks by keeping the blocks statistics of the sample, as well as accounting for through-thickness blocks and structural details, such as lintels and edges. A meaningful benchmark is used to assess the efficiency of the filling algorithm, as well as its capability to generate statistically-consistent patterns. The benchmark is then employed in full-scale computational analyses by using an available block-based model. Various multi-leaf patterns are considered and critically compared in structural analysis, highlighting the influence of through-thickness blocks and intralayer mechanical properties on the overall structural response.

Topics & Concepts

MasonryBlock (permutation group theory)Benchmark (surveying)Sample (material)Computer scienceScale (ratio)Volume (thermodynamics)AlgorithmBlock sizeStructural engineeringComputational scienceEngineeringGeologyMathematicsGeometryKey (lock)PhysicsChromatographyChemistryComputer securityGeodesyQuantum mechanics3D Surveying and Cultural HeritageMasonry and Concrete Structural AnalysisBuilding materials and conservation