Rotational Stiffness and Carrying Capacity of Timber Frame Corners with Dowel Type Connections

Author:

Johanides MarekORCID,Mikolasek David,Lokaj AntoninORCID,Mynarcik Petr,Marcalikova ZuzanaORCID,Sucharda OldrichORCID

Abstract

With the development of wooden structures and buildings, there is a need to research physical and numerical tests of wood-based structures. The presented research is focused on construction and computational approaches for new types of joints to use in wooden structures, particularly glued lamella elements made of wood and wood-based composites. This article focuses on improving the frame connection of a wooden post and a beam with the use of fasteners to ensure better load-bearing capacity and stiffness of the structure. In common practice, bolts or a combination of bolts and pins are used for this type of connection. The aim is to replace these commonly used fasteners with modern ones, namely full thread screws. The aim is also to shorten and simplify the assembly time in order to improve the load-bearing capacity and rigidity of this type of frame connection. Two variations of the experimental test were tested in this research. The first contained bolts and pins as connecting means and the second contained the connecting means of a full threaded screw. Each experiment contained a total of two tests. For a detailed study of the problem, we used a 2D or 3D computational model that models individual components, including fasteners.

Funder

Student Grant Competition VSB – TUO

Publisher

MDPI AG

Subject

General Materials Science

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1. Advancing timber construction: historical growth, research frontiers, and time series forecasting;Journal of Asian Architecture and Building Engineering;2024-07-05

2. Experimental study on seismic performance of timber frame with novel energy-dissipation joints;Engineering Structures;2024-02

3. Combined effects of axial and lateral loading for Glued-In steel rods in laminated veneer lumber;Structures;2023-11

4. The aspects of numerical modelling and testing of timber frame corner with dowel type connections;STRUCTURAL AND PHYSICAL ASPECTS OF CONSTRUCTION ENGINEERING 2022 (SPACE 2022): 5th International Scientific Conference;2023

5. Nonlinear analysis and numerical modelling of timber semi-rigid connection;STRUCTURAL AND PHYSICAL ASPECTS OF CONSTRUCTION ENGINEERING 2022 (SPACE 2022): 5th International Scientific Conference;2023

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