Thesis

A unified approach to unbiased frictional contact modelling from first-order to higher-order finite elements

Abstract:: Contact modelling is a critical part of simulations used in the design and development of complex engineering systems, as contact is the principal method of force transmission between solids. It helps analyse surface interactions to predict stress distribution, motion, and deformation of systems. However, the currently available methods to model contact with explicit finite element method do not offer high levels of accuracy. These methods are also biased due to the master-slave labelling ...
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APA Style

Sahu, I. (2024). A unified approach to unbiased frictional contact modelling from first-order to higher-order finite elements [PhD thesis]. University of Oxford.

MLA Style

Sahu, I. A Unified Approach to Unbiased Frictional Contact Modelling from First-Order to Higher-Order Finite Elements. University of Oxford, 2024.

Chicago Style

Sahu, I. 2024. “A Unified Approach to Unbiased Frictional Contact Modelling from First-Order to Higher-Order Finite Elements.” PhD thesis, University of Oxford.
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Files:: Sahu_2024_A_unified_approach.pdf

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Sahu_2024_Supplementary_data.zip

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Authors

+ Sahu, I More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Engineering Science
Research group:: Solid Mechanics and Materials Engineering Group
Oxford college:: St Cross College
Role:: Author
ORCID:: 0000-0002-8822-8397

Contributors

Institution:: University of Oxford
Division:: MPLS
Department:: Engineering Science
Research group:: Solid Mechanics and Materials Engineering Group
Role:: Supervisor
ORCID:: 0000-0002-2569-6337

+ Engineering and Physical Sciences Research Council More from this funder

Funder identifier:: https://ror.org/0439y7842
Grant:: EP/S005072/1
Programme:: Strategic Partnership in Computational Science for Advanced Simulation and Modelling of Engineering Systems - ASiMoV

DOI:: 10.5287/ora-7rewqwqd2
Type of award:: DPhil
Level of award:: Doctoral
Awarding institution:: University of Oxford

Language:: English
Keywords:: computational mechanics

penalty method

mechanics

finite elements

mathematical modelling

computational contact mechanics

unbiased

contact

friction

higher order
Subjects:: Contact mechanics

Computational modelling

Simulation methods

Solid mechanics

Engineering
Deposit date:: 2025-03-26

Terms of use

Copyright holder:: Indrajeet Sahu
Copyright date:: 2024

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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