1 to 10 of 56 Results
Apr 6, 2022
Tapia Camú, Cristóbal; Claus, Marian, 2022, "Replication Models for: A finger-joint based edge connection for the weak direction of CLT plates", https://doi.org/10.18419/darus-1259, DaRUS, V1
This repository contains the implementation of the analytical and numerical models described and used in the paper to model the developed edge connection for CLT plates in the weak direction. The connection was developed within the frame of the cluster "Integrative Computational... |
Apr 6, 2022 -
Replication Models for: A finger-joint based edge connection for the weak direction of CLT plates
Gzip Archive - 30.3 KB -
MD5: b491d58be161e70c9bf6feacbeec78d0
Contains the scripts (python) for the different Abaqus models used to study the developed edge connection for CLT. Detailed information on how to run the different models is given in the Readme.md file inside the archive. |
Apr 6, 2022 -
Replication Models for: A finger-joint based edge connection for the weak direction of CLT plates
Gzip Archive - 13.9 KB -
MD5: e75acf13b165a5aafaffb8e4302a9378
Implementation of the analytical model used to compute deflections and stresses in the CLT-LVL compound conforming the developed connection. |
Apr 20, 2023
Tapia Camú, Cristóbal, 2023, "Replication Data for: Holes in glulam - Orientation and design of internal reinforcements", https://doi.org/10.18419/darus-3440, DaRUS, V1
This repository contains the finite element models for Abaqus used to generate the results shown in the paper. The models are written in Python and were tested with Abaqus v2016. Three models are provided: Model of a glulam beam with a circular hole without reinforcement Model of... |
Apr 20, 2023 -
Replication Data for: Holes in glulam - Orientation and design of internal reinforcements
Markdown Text - 2.0 KB -
MD5: e35f95ce26c17df7833631b3c3a9a82d
Instructions to install required python libraries for Abaqus v2016. Versions of Abaqus newer than v2022 include these libraries in the default installation, thus, there is no need to install them manually. |
Apr 20, 2023 -
Replication Data for: Holes in glulam - Orientation and design of internal reinforcements
Python Source Code - 55.0 KB -
MD5: 94971fa4175e607f25fd61b4bed3e91d
Finite element model of a glulam beam with a hole reinforced without reinforcement. |
Apr 20, 2023 -
Replication Data for: Holes in glulam - Orientation and design of internal reinforcements
Python Source Code - 95.7 KB -
MD5: 6dfd4e8edbfc08c6e4fbd4b72aa6255c
Finite element model of a glulam beam with a hole reinforced with internal inclined dowel-type reinforcements. |
Apr 20, 2023 -
Replication Data for: Holes in glulam - Orientation and design of internal reinforcements
Python Source Code - 98.4 KB -
MD5: a6b08c2a451517b4642117af039307b4
Finite element model of a glulam beam with a hole reinforced with internal inclined dowel-type reinforcements. A discrete crack is added. |
Unknown - 635.1 MB -
MD5: d82a758f76cf67edd1bddce8ca93431d
Results from the FE model for the initial case. The format corresponds to the ASCII-format from Abaqus. The results correspond to a total load of 1kN. |
Unknown - 635.1 MB -
MD5: 4efaf26899295d2f34eaa629ca0dfda2
Results from the FE model for the additional case, where a uniformly distributed load is applied on top of the free surface of the column element. The format corresponds to the ASCII-format from Abaqus. The results correspond to a total load of 1kN. |