Will Coombs

Durham University

H-index: 22

Europe-United Kingdom

About Will Coombs

Will Coombs, With an exceptional h-index of 22 and a recent h-index of 19 (since 2020), a distinguished researcher at Durham University, specializes in the field of Computational mechanics, Constitutive modelling, Finite deformation Mechanics, Fracture, Material Point Method.

His recent articles reflect a diverse array of research interests and contributions to the field:

Preserving non-negative porosity values in a bi-phase elasto-plastic material under Terzaghi’s effective stress principle

On the implementation of a material point‐based arc‐length method

An implicit Material Point Method for micropolar solids undergoing large deformations

A Coupled Implicit Material Point-Finite Element Method for Fracture Simulation by the Eigenerosion Approach

A ghost-stabilised material point method for large deformation geotechnical analysis

An hp-adaptive discontinuous Galerkin method for phase field fracture

Cone Penetration Tests (CPTs) in layered soils: a Material Point approach

On the development of a material point method compatible arc length solver for large deformation solid mechanics

Will Coombs Information

University	Durham University
Position	___
Citations(all)	1332
Citations(since 2020)	1065
Cited By	666
hIndex(all)	22
hIndex(since 2020)	19
i10Index(all)	42
i10Index(since 2020)	36
Email	Access Email
University Profile Page	Durham University
Google Scholar	View Google Scholar Profile

Will Coombs Skills & Research Interests

Computational mechanics

Constitutive modelling

Finite deformation Mechanics

Fracture

Material Point Method

Top articles of Will Coombs

Title	Journal	Author(s)	Publication Date
Preserving non-negative porosity values in a bi-phase elasto-plastic material under Terzaghi’s effective stress principle	Mechanics of Materials	Giuliano Pretti William M Coombs Charles E Augarde Marc Marchena Puigvert José Antonio Reyna Gutiérrez	2024/3/1
On the implementation of a material point‐based arc‐length method	International Journal for Numerical Methods in Engineering	Nathan D Gavin Giuliano Pretti William M Coombs John C Brigham Charles E Augarde	2024/2/6
An implicit Material Point Method for micropolar solids undergoing large deformations	Computer Methods in Applied Mechanics and Engineering	Ted J O’Hare Panos A Gourgiotis William M Coombs Charles E Augarde	2024/2/1
A Coupled Implicit Material Point-Finite Element Method for Fracture Simulation by the Eigenerosion Approach	Engineering Computations	Ahmad Chihadeh Michael Kaliske	2022/7/5
A ghost-stabilised material point method for large deformation geotechnical analysis		WM Coombs L Zdravkovic S Konte DMG Taborda A Tsiampousi	2023/12/31
An hp-adaptive discontinuous Galerkin method for phase field fracture	Computer Methods in Applied Mechanics and Engineering	Robert E Bird Charles E Augarde William M Coombs Ravindra Duddu Stefano Giani ...	2023/11/1
Cone Penetration Tests (CPTs) in layered soils: a Material Point approach		Robert Bird William M Coombs Charles Augarde Michael Brown Yaseen Sharif ...	2023
On the development of a material point method compatible arc length solver for large deformation solid mechanics		Nathan D Gavin William M Coombs John C Brigham Charles E Augarde	2023/12/31
Characterization of anchor penetration behaviour for Cable burial risk assessment		Yaseen Sharif Michael Brown William M Coombs Charles Augarde Robert Bird ...	2023/9/12
An open-source Julia code for geotechnical MPM		N Gavin RE Bird WM Coombs CE Augarde L Zdravkovic ...	2023/12/31
A conservation law consistent updated Lagrangian material point method for dynamic analysis	Journal of Computational Physics	Giuliano Pretti William M Coombs Charles E Augarde Bradley Sims Marc Marchena Puigvert ...	2023/7/15
Ghost stabilisation of the material point method for stable quasi‐static and dynamic analysis of large deformation problems	International Journal for Numerical Methods in Engineering	William M Coombs	2023/11/15
A geometrically-exact Finite Element Method for micropolar continua with finite deformations		Ted J O'Hare Panos A Gourgiotis William M Coombs Charles E Augarde	2023/4/19
Cone penetration tests (CPTs) in bi-phase soils: A material point approach with rigid body interaction		Robert Bird Giuliano Pretti William M Coombs Charles E Augarde Yaseen Sharif ...	2023/1/17
An investigation into the methods for modelling pre-existing cracks in phase field problems		Bradley Sims Robert E Bird Stefano Giani William M Coombs	2023/12/31
A coupled implicit MPM-FEM approach for brittle fracture and fragmentation	Computers & Structures	Ahmad Chihadeh William Coombs Michael Kaliske	2023/11/1
A displacement-controlled arc-length solution scheme	Computers & Structures	Giuliano Pretti William M Coombs Charles E Augarde	2022/1/1
A comparison of approaches for modelling poro-mechanics in the Material Point Method		G Pretti WM Coombs CE Augarde	2022/4/20
Adaptive configurational force‐based propagation for brittle and fatigue crack analysis	International Journal for Numerical Methods in Engineering	Robert Bird William M Coombs Stefano Giani	2022/4/15
A configurational force-based material point method for crack propagation modelling in 2D	Theoretical and Applied Fracture Mechanics	Rongxin Zhou William M Coombs Yang Xu Ping Zhang Li-Ge Wang	2022/2/1