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Rate dependent micromechanical model for self-healing cementitious materials - data

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posted on 2024-09-18, 11:46 authored by Sina Sayadi, Iulia MihaiIulia Mihai, Anthony JeffersonAnthony Jefferson

A new micromechanics-based constitutive model for self-healing cementitious materials captures self-healing materials' behaviour. It can simulate the distributed healing mechanisms, such as materials with embedded microcapsules and enhanced autogenous healing capabilities. The model considers anisotropic microcracking and time-dependent healing with no restrictions on the number or timing of microcracking or healing events that can be simulated. This dataset contains the source codes, input data and output used for producing the results that are going to be published in the Journal of International Solids and Structures. The source code folder includes the Fortran modules that are used for the finite element framework. These .F90 files need Intel math kernel libraries to compile. The data used for constitutive formulation illustration are in .prn format. For these files, a Matlab code was included for the post-processing aspect. The input data files for boundary value problem files are in .dat format. These files describe the model geometry, meshes and materials characteristics. The results folder contains the files related to global response curves. In these files, the first header specifies each column for clarification.

Funding

Self-healing, Multifunctional, Advanced Repair Technologies IN Cementitious Systems (2019-12-01 - 2024-05-31); Jefferson, Anthony. Funder: Commission of the European Communities:H2020-MSCA-ITN-2019-GA-860006

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Specialist software required to view data files

Fortran software is needed for compiling the code. Any type of postprocessing software may be used for data visualization. Although, Matlab is recommended for this data file since related postprocessing codes were provided.

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