Publications based on solids4foam

The publications listed below are based on the solids4foam library and its predecessor, the Extend Bazaar FSI toolbox, and other solid mechanics codes from the foam-extend library.

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Journal article

Conference or workshop presentation

Book chapter

Thesis

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Instructions for adding a new entry are at the bottom of the document

List of publications

Publications are listed in reverse chronological order.

Pereira R., Romero J., Norton A., & Nóbrega J.M. (2024). Advancing the assessment of pacifier effects with a novel computational method, BMC Oral Health, 24 (1), art. no. 87.

X.L. Yang, N. Guo, Z.X. Yang, (2024) A finite-volume implementation of the phase-field model for brittle fracture with adaptive mesh refinement, Computers and Geotechnics, Volume 165, 2024, 105921, ISSN 0266-352X.

Attili, T., Heller, V., & Triantafyllou, S. (2023). Scaling approaches and scale effects in wave–flexible structure interaction. Journal of Fluids and Structures, 123, 103987.

Yu Hsiao, Shih-Chun Hsiao, Philip Li-Fan Liu, (2023). Two-dimensional numerical simulations of solitary wave interaction with a vertical elastic plate. Ocean Engineering.

Attili, T., Heller, V., & Triantafyllou, S. (2023). Wave impact on rigid and flexible plates. Coastal Engineering, 182, 104302.

Salachna, J., Cioncolini, A., & Iacovides, H. (2023). Benchmark simulation of the flow-induced vibrations for nuclear applications. Annals of Nuclear Energy, 180, 109425.

Batistić, I., Cardiff, P., & Ivanković, A., & Tuković, Ž (2023). A finite volume penalty-based implicit procedure for the treatment of the frictionless contact boundaries. International Journal for Numerical Methods in Engineering, 124, 4171-4191.

F. Mazzanti and P. Cardiff, (2023). A Vertex-Centred Block-Coupled Finite Volume Methodology for Small-Strain Elastoplasticity. 18th OpenFOAM Workshop, University of Genoa, Italy.

P. Cardiff, (2023). Solid mechanics and fluid-solid interactions using solids4foam-v2.0. 18th OpenFOAM Workshop, University of Genoa, Italy.

P. Cardiff, (2023). Using preCICE to couple OpenFOAM and solids4foam for fluid-solid interactions. 18th OpenFOAM Workshop, University of Genoa, Italy.

I. Batistić, P. Cardiff, A. Ivanković and Ž. Tuković, (2023). Development of an implicit boundary condition for modelling of mechanical contact. 18th OpenFOAM Workshop, University of Genoa, Italy.

Attili T., Heller V., Triantafyllou S. (2022). Numerical Investigation of Impulse Waves Impacting Dams, Proceedings of the IAHR World Congress, pp. 2222 - 2229.

Attili T., Heller V., Triantafyllou S. (2022). Numerical Investigation ofWaves Interacting with Rigid and Flexible Plates, Proceedings of the IAHR World Congress, pp. 4438 - 4447.

Michael Herty, Elisa Iacomini, Giuseppe Visconti, (2022). Recent Trends on Nonlinear Filtering for Inverse Problems. Commun. Appl. Ind. Math. 13 (1), 10–20.

S.A. Brown, N. Xie, M.R. Hann, D.M. Greaves, (2022). Investigation of wave-driven hydroelastic interactions using numerical and physical modelling approaches. Applied Ocean Research.

I. Batistić, (2022). Segment-to-segment algorithm for finite volume mechanical contact simulations. PhD thesis, University of Zagreb. Faculty of Mechanical Engineering and Naval Architecture.

Batistić, I., Cardiff, P., & Tuković, Ž. (2022). A finite volume penalty based segment-to-segment method for frictional contact problems. Applied Mathematical Modelling, 101, 673-693.

P. Cardiff, (2022). Implementing a block-coupled implicit vertex-centred finite volume approach for solid mechanics in OpenFOAM. 17th OpenFOAM Workshop, Cambridge, UK.

P. Cardiff, (2022). solids4foam Overview & Demonstration Cases. 17th OpenFOAM Workshop, Cambridge, UK.

P. Cardiff, (2022). solids4foam overview and future directions. 2nd CCP-WSI Hackathon, University of Exeter, UK.

Whelan, A., Clancy, M., Pakrashi, V., Celikin, M., & Cardiff, P., (2022). Finite Volume Implementation of Damage Mechanics and Fracture Models. Complas 2021, Barcelona, Spain.

M. Girfoglio, A. Quaini, G. Rozza, (2021). Fluid-structure interaction simulations with a LES filtering approach in solids4Foam. Communications in Applied and Industrial Mathematics, 12(1).

Rodrigues, P. V., Ramoa, B., Machado, A. V., Cardiff, P., & Nóbrega, J. M. (2021). Assessing the Compressive and Impact Behavior of Plastic Safety Toe Caps through Computational Modelling. Polymers, 13(24), 4332.

A. Scolaro, C. Fiorina, I. Clifford, and A. Pautz, (2021). Development of a Semi-Implicit Contact Methodology for Finite Volume Stress Solvers. International Journal for Numerical Methods in Engineering, vol. 123, no. 2, pp. 309–338.

Attili, T., Heller, V., & Triantafyllou, S. (2021). A numerical investigation of tsunamis impacting dams. Coastal Engineering, 169, 103942.

I. Oliveira, J. Gasche, J. Militzer, C. Baccin, P. Cardiff, (2021). On the influence of wall thickness heterogeneity in the mechanics of intracranial aneurysms. 26th ABCM International Congress of Mechanical Engineering, Florianópolis, Brazil.

Whelan, A., Clancy, M., Pakrashi, V., Celikin, M., & Cardiff, P., (2021). Finite Volume Implementation of Damage Mechanics and Fracture Models. 16th OpenFOAM Workshop, Dublin, Ireland.

P. Cardiff, (2021). Finite volume approaches for finite strain elasto-plasticity. CCP-WSI Code Developers' Workshop 2.

P. Cardiff, (2021). Solid mechanics and fluid-solid interaction using the solids4foam toolbox. The 3rd UCL OpenFOAM Workshop, University College London.

P. Cardiff, (2021). The finite volume method for solid mechanics. The 3rd UCL OpenFOAM Workshop, University College London.

I. Batistić, P. Cardiff and Ž. Tuković, (2021). Towards implicit implementation of penalty based contact boundary condition. 16th OpenFOAM Workshop, Dublin, Ireland.

I. Oliveira, Ž. Tuković, J. Gasche, and P. Cardiff, (2021) Semicoupled numerical strategy to solve large-strain motion of incompressible hyperelastic materials, 16th OpenFOAM Workshop, Dublin, Ireland.

I. Oliveira, J. Gasche, and P. Cardiff, (2020) Implementation and numerical verification of an incompressible three-parameter Mooney-Rivlin model for large deformation of soft tissues, 15th OpenFOAM Workshop, Virginia Tech, USA.

I. Batistić, Ž. Tuković, P. Cardiff and P. De Jaeger, (2020) A Segment-to-segment Algorithm for Finite Volume Mechanical Contact Simulations 15th OpenFOAM Workshop, Virginia Tech, USA.

P. Cardiff (2020) Training: Solid mechanics and fluid-solid interaction using the solids4foam toolbox 15th OpenFOAM Workshop, Virginia Tech, USA.

L. Huang, L. Bennetts, P. Cardiff, H. Jasak, Ž. Tuković, ,G. Thomas (2020). Fluid-structure interaction of a large ice sheet in waves 15th OpenFOAM Workshop, Virginia Tech, USA.

Huang, L., Ren, K., Li, M., Tuković, Ž., Cardiff, P., & Thomas, G. (2019). Fluid-structure interaction of a large ice sheet in waves Ocean Engineering, 182, 102-111.

Ž. , I. Batistić, P. Cardiff, H. Jasak, and A. Ivanković, (2019) Block-coupled finite volume solver for incompressible linear elasticity, 14th OpenFOAM Workshop 2019,Duisburg, Germany.

P. Cardiff (2019) Analysis of finite volume solution algorithms for solid mechanics implemented in OpenFOAM 14th OpenFOAM Workshop 2019,Duisburg, Germany.

Huang, L. & Cardiff, P. & Tuković, Ž. & Thomas, G. (2019) A hydroelastic solver applied to wave-ice interactions 14th OpenFOAM Workshop 2019,Duisburg, Germany.

P. Cardiff (2019) Solid mechanics and fluid-solid interaction using the solids4foam toolbox 14th OpenFOAM Workshop 2019,Duisburg, Germany.

L. Huang & D. Azam, P. Cardiff, L. Bennetts, A. Toffoli, Z. Tukovic, G. Thomas, (2019) Numerical simulation of hydroelastic waves along a semi-infinite ice floe International Workshop on Water Waves and Floating Bodies, Australia.

J. Živić, I. Batistić, Ž. Tuković, and I. Karšaj, (2019) Modeling of Incompressible Materials Using Finite Volume Method and its Application in Biomechanics, Proceedings of 10nd Congress of Croatian Society of mechanics, pp. 343–349.

Tuković, Ž., Jasak, H., Karač, A., Cardiff, P., Ivanković, A. (2018). OpenFOAM finite volume solver for fluid-solid interaction. Transactions of Famena. 2018, 42(3), pp. 1–31.

P. Cardiff, A. Karač, P. De Jaeger, H. Jasak, J. Nagy, A. Ivanković, and Ž. Tuković, (2018) An open-source finite volume toolbox for solid mechanics and fluid-solid interaction simulations,

Tuković, Ž., Bukać, M., Cardiff, P., Jasak, H., and Ivanković, A. (2018). Added mass partitioned fluid-structure interaction solver based on a Robin boundary condition for pressure.

V. Škurić, P. D. Jaeger, and H. Jasak, (2018), Lubricated elastoplastic contact model for metal forming processes in OpenFOAM,

P. Cardiff, O., Karač, A., Jaeger, P., Demirdzic I., Jasak, H., Nagy, J., Ivankovic, A., Tuković, Ž. (2018) The finite volume method for solid mechanics in OpenFOAM 2nd Iberian OpenFOAM Meeting, Spain.

L. Muralidharan, P. Cardiff, R. Flavin, A. Ivankovic, (2018) A study on the altered contact characteristics of the ankle joint as an effect of Arthritis, Arthrodesis and Arthroplasty World Congress of Biomechanics, Dublin.

Cardiff, P., Tuković, Ž., Jasak, H., & Ivanković, A. (2017) A Lagrangian cell-centred finite volume method for metal forming simulation. International Journal for Numerical Methods in Engineering, 109(13), 1777-1803.

P. Cardiff, O. & Karač, A. & Jaeger, P. & Jasak, H. & Nagy, J. & Ivankovic, A. & Tuković, Ž. (2017) Towards the Development of an Extendable Solid Mechanics and Fluid-Solid Interactions Toolbox for OpenFOAM 12th OpenFOAM Workshop 2019, University of Exeter, UK.

P. Cardiff, O., T. Tian, Z. Tukovic, H. Jasak, A. Ivankovic, P. De Jaeger (2017) An Eulerian-inspired Lagrangian finite volume method for wire drawing simulations IUTAM Symposium on Multi-scale Fatigue, Fracture and Damage of Materials in Harsh Environments, National University of Ireland, Ireland

Cardiff, P., Tuković, Ž., Jasak, H., & Ivanković, A. (2016). A block-coupled Finite Volume methodology for linear elasticity and unstructured meshes. Computers & Structures, 175, 100-122.

Šekutkovski, B., Kostić, I., Simonović, A., Cardiff, P., & Jazarević, V. (2016) Three-dimensional fluid–structure interaction simulation with a hybrid RANS–LES turbulence model for applications in transonic flow domain. Aerospace Science and Technology, 49, 1-16.

P. Cardiff, Tuković, Ž. M. Clancy, H. Jasak, P. De Jaeger, A. Ivanković (2016) The finite volume method for solid mechanics in OpenFOAM 11th OpenFOAM Workshop, Guimarães, Portugal.

P. Cardiff (2016) Updates on a block coupled solver for linear elasticity 4th UK and Eire FOAM/OpenFOAM user day, University of Exeter, UK.

Tang, T., Hededal, O., & Cardiff, P. (2015). On finite volume method implementation of poro-elasto-plasticity soil model. International Journal for Numerical and Analytical Methods in Geomechanics, 39(13), 1410-1430.

Cardiff, P., Karač, A., & Ivanković, A. (2014). A large strain finite volume method for orthotropic bodies with general material orientations. Computer Methods in Applied Mechanics and Engineering, 268, 318-335.

P. Cardiff, A. Karač, D. FitzPatrick, R. Flavin, and A. Ivanković, (2014) Development of a hip joint model for finite volume simulations. Journal of biomechanical engineering, vol. 136, no. 1, p. 011006.

Ž. Tuković, P. Cardiff, A. Karač, H. Jasak, and A. Ivanković, (2014) OpenFOAM library for fluid structure interaction 9th OpenFOAM Workshop, University of Zagreb, Zagreb, Croatia.

P. Cardiff, Ž. Tuković, A. Ivanković, A. Karač,(2014) Nonlinear solid mechanics in OpenFOAM 9th OpenFOAM Workshop, University of Zagreb, Zagreb, Croatia.

Ž. Tuković, A. Ivanković, and A. Karač, (2013), Finite-volume stress analysis in multi-material linear elastic body, International Journal for Numerical Methods in Engineering, vol. 93, no. 4, pp. 400–419.

P. Cardiff, A. Karač, Ž. Tuković, A. Ivanković, (2013) An open-source finite volume method for computational solid mechanics Joint Symposium of Irish Mechanics Society and Irish Society for Scientific and Engineering Computation, UCD, Ireland

P. Cardiff, (2012), Development of the finite volume method for hip joint stress analysis. PhD thesis, University College Dublin. School of Mechanical & Materials Engineering.

Cardiff, P., Karač, A., Ivanković, A. (2012). Development of a finite volume contact solver based on the penalty method. Computational Materials Science, 64, 283-284.

P. Cardiff, A. Ivanković, A. Karač, (2012), Development of a finite volume based structural solver for large rotation of non-orthogonal meshes, 7th OpenFOAM Workshop, Technische Universität Darmstadt, Germany.

P. Cardiff, A. Ivanković, D. FitzPatrick, F. Robert, A. Karač, (2011), Contact Stress Analysis in OpenFOAM: Application to Hip Joint Bones 6th OpenFOAM Workshop, Penn State University, USA

Ž. Tuković and H. Jasak, (2007), Updated lagrangian finite volume solver for large deformation dynamic response of elastic body, Transactions of FAMENA, vol. 31, no. 1, pp. 55–70.

Other publications on the subject of the application of the finite volume method to solid mechanics can be found in:

P. Cardiff and I. Demirdžić, (2021) Thirty Years of the Finite Volume Method for Solid Mechanics. Arch Computat Methods Eng 28, 3721–3780.

How to add a new entry

If you would like to contribute your publications to this list, you can follow these steps:

  1. Click on the "Edit On GitHub" symbol in the top-right corner of this page. This will bring you to the source code for this page on the GitHub repository.
  2. Click on "Edit the file in your fork of the repository" (pencil symbol)
  3. Add your work to the markdown file, following the same formatting as other entries.
  4. Click on "Commit changes…" to commit these changes to your fork of the repository.
  5. Click "Create a Pull Request" to request these changes.

If you have trouble with these steps, you can describe your problem by creating a new issue at https://github.com/solids4foam/solids4foam.github.io/issues.