Dissertation Janusch Töpler

This repository contains the models and code for the dissertation of Janusch Töpler.

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1 to 4 of 4 Results

Source code for: generating scattering geometrical imperfections May 21, 2025 Töpler, Janusch, 2025, "Source code for: generating scattering geometrical imperfections", https://doi.org/10.18419/DARUS-5060, DaRUS, V1 This repository contains the python code for the generation of realistically scattering bow and twist imperfections of softwood glulam timber beam-columns. The model was developed in the dissertation of Janusch Töpler.
Source code for: geometrically and materially nonlinear numerical analysis of timber beam-columns with Abaqus/CAE (Abaqus_timber_beam-column) May 21, 2025 Töpler, Janusch, 2025, "Source code for: geometrically and materially nonlinear numerical analysis of timber beam-columns with Abaqus/CAE (Abaqus_timber_beam-column)", https://doi.org/10.18419/DARUS-5059, DaRUS, V1 This repository contains the python input code for an automated geometrically and materially nonlinear numerical analysis of timber beam-columns with Abaqus/CAE. The structural system, geometry, imperfections, loading, and material can be varied. The Abaqus_timber_beam-column model was developed in the dissertation of Janusch Töpler.
Source code for: KaReMo++ May 21, 2025 Töpler, Janusch, 2025, "Source code for: KaReMo++", https://doi.org/10.18419/DARUS-5061, DaRUS, V1 This repository contains the python code for the generation of realistically scattering stiffnesses and strengths of softwood glulam beams. The model is an extension of the Karlsruher Rechenmodell. The KaReMo++ model was developed in the dissertation of Janusch Töpler.
Source code for: UMAT subroutine for material modelling of timber with Abaqus May 21, 2025 Töpler, Janusch, 2025, "Source code for: UMAT subroutine for material modelling of timber with Abaqus", https://doi.org/10.18419/DARUS-5062, DaRUS, V1 This repository contains a UMAT subroutine for modelling orthotropic behaviour with brittle failure for tension in the x-direction, ellipsoid elastoplastic behaviour for compression in grain direction (x-direction), and bilinear elastoplastic behaviour for shear in the xy-, xz-, and yz-planes. A stress interaction is only considered for the three s...

Source code for: generating scattering geometrical imperfections

May 21, 2025

Töpler, Janusch, 2025, "Source code for: generating scattering geometrical imperfections", https://doi.org/10.18419/DARUS-5060, DaRUS, V1

This repository contains the python code for the generation of realistically scattering bow and twist imperfections of softwood glulam timber beam-columns. The model was developed in the dissertation of Janusch Töpler.

Source code for: geometrically and materially nonlinear numerical analysis of timber beam-columns with Abaqus/CAE (Abaqus_timber_beam-column)

May 21, 2025

Töpler, Janusch, 2025, "Source code for: geometrically and materially nonlinear numerical analysis of timber beam-columns with Abaqus/CAE (Abaqus_timber_beam-column)", https://doi.org/10.18419/DARUS-5059, DaRUS, V1

This repository contains the python input code for an automated geometrically and materially nonlinear numerical analysis of timber beam-columns with Abaqus/CAE. The structural system, geometry, imperfections, loading, and material can be varied. The Abaqus_timber_beam-column model was developed in the dissertation of Janusch Töpler.

Source code for: KaReMo++

May 21, 2025

Töpler, Janusch, 2025, "Source code for: KaReMo++", https://doi.org/10.18419/DARUS-5061, DaRUS, V1

This repository contains the python code for the generation of realistically scattering stiffnesses and strengths of softwood glulam beams. The model is an extension of the Karlsruher Rechenmodell. The KaReMo++ model was developed in the dissertation of Janusch Töpler.

Source code for: UMAT subroutine for material modelling of timber with Abaqus

May 21, 2025

Töpler, Janusch, 2025, "Source code for: UMAT subroutine for material modelling of timber with Abaqus", https://doi.org/10.18419/DARUS-5062, DaRUS, V1

This repository contains a UMAT subroutine for modelling orthotropic behaviour with brittle failure for tension in the x-direction, ellipsoid elastoplastic behaviour for compression in grain direction (x-direction), and bilinear elastoplastic behaviour for shear in the xy-, xz-, and yz-planes. A stress interaction is only considered for the three s...

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