Stiffness reduction of cantilever I-beams through lateral torsional buckling for compliant beams

Title

Stiffness reduction of cantilever I-beams through lateral torsional buckling for compliant beams

 Author

Staats, Laurens (TU Delft Mechanical, Maritime and Materials Engineering)

Contributor

Radaelli, G. (mentor) ORCID 0000-0002-2935-3868
Amoozandeh Nobaveh, A. (mentor) ORCID 0000-0002-0722-6550
Herder, J.L. (graduation committee) ORCID 0000-0002-2770-0539
Sakes, A. (graduation committee) ORCID 0000-0002-4323-884X

 Degree granting institution

Delft University of Technology

 Programme

Mechanical Engineering

 Date

2021-07-07

 Abstract

Lateral torsional buckling (LTB) of I-beams is an established buckling phenomenon in civil and structural engineering known for causing structural failures. However when a buckling instability is present the structure contains a form of negative stiffness. Due to the observed tendency of I-beams subject to LTB to twist about their longitudinal axis it is suspected that such I-beams contain a form of negative rotational stiffness about their longitudinal axis. Rather than considering LTB as a failure mode for structures, this work aims to investigate the potential of cantilever I-beams subject to LTB having a reduced rotational stiffness about their longitudinal axis with minimal lateral deflection on demand by subjecting the beam to LTB. By minimising the lateral deflection the longitudinal twisting behaviour approaches the behaviour of a compliant rotational joint. The occurrence of negative rotational stiffness in the buckled state is verified and a parameter study is executed to evaluate the stiffness reduction and co-occurring lateral deflection by means of 1-dimensional finite element modelling. Finally an optimisation is performed to obtain a beam with minimal lateral deflection and a significant reduction in longitudinal rotational stiffness. The simulated behaviour is experimentally validated. The simulation and experiment showed that rotational stiffness can be significantly reduced through LTB. Additionally the experiment verified the significant reduction of lateral deflection for the optimised beam. Overall this work forms an initial step towards the use of reduced rotational stiffness of beams by exploiting lateral torsional buckling.

 Subject

Lateral torsional buckling
variable stiffness
compliant beams
beam optimisation

 To reference this document use:

http://resolver.tudelft.nl/uuid:2f994423-ff74-4ac3-bde1-b009cf6b5113

 Embargo date

2022-07-07

 Part of collection

Student theses

 Document type

master thesis

 Rights

© 2021 Laurens Staats
Files
PDF Laurens_Staats_Master_Thesis.pdf 68.28 MB
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