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Jibran Haider
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A first‐order hyperbolic framework for large strain computational solid dynamics: an upwind cell centred total Lagrangian scheme
J Haider, CH Lee, AJ Gil, J Bonet
International Journal for Numerical Methods in Engineering 109 (3), 407-456, 2017
502017
An upwind cell centred Total Lagrangian finite volume algorithm for nearly incompressible explicit fast solid dynamic applications
J Haider, CH Lee, AJ Gil, A Huerta, J Bonet
Computer Methods in Applied Mechanics and Engineering, 2018
282018
Heat transfer and fluid flow over circular cylinder in cross flow
J Haider, N Danish, W Khan, U Mehdi, B Abbasi
24*
A parameter-free total Lagrangian smooth particle hydrodynamics algorithm applied to problems with free surfaces
KWQ Low, CH Lee, AJ Gil, J Haider, J Bonet
Computational Particle Mechanics 8, 859-892, 2021
102021
An acoustic Riemann solver for large strain computational contact dynamics
CJ Runcie, CH Lee, J Haider, AJ Gil, J Bonet
International Journal for Numerical Methods in Engineering 123 (23), 5700-5748, 2022
82022
An upwind cell centred Finite Volume Method for large strain explicit solid dynamics in OpenFOAM
J Haider
Universitat Politècnica de Catalunya, 2018
42018
A first order hyperbolic framework for large strain computational solid dynamics in openfoam
J Haider, CH Lee, A Gil
World Congress on Computational Mechanics and The Asia-Pacific Congress on …, 2016
22016
A First Order Hyperbolic Framework for Large Strain Computational Solid Dynamics: An upwind finite volume method
CH Lee, AJ Gil, J Haider, O Ibrahim, J Bonet
1*
Explicit solid dynamics in OpenFOAM
J Haider, CH Lee, AJ Gil, J Bonet, A Huerta
6th ESI OpenFOAM user conference, 0
An upwind cell centred Total Lagrangian scheme for nearly incompressible explicit solid dynamics in OpenFOAM
J Haider, CH Lee, AJ Gil, A Huerta, J Bonet
ECOMMAS 2018, 0
Large strain solid dynamics in OpenFOAM
J Haider, CH Lee, AJ Gil, J Bonet, A Huerta
4th ESI OpenFOAM user conference, 0
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