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Cerquaglia Marco Lucio

Main Referenced Co-authors
Boman, Romain  (11)
Ponthot, Jean-Philippe  (9)
Deliège, Geoffrey  (8)
Terrapon, Vincent  (7)
Papeleux, Luc  (5)
Main Referenced Keywords
PFEM (4); sloshing (3); Bird strike (2); free surfaces (2); Impact (2);
Main Referenced Disciplines
Engineering, computing & technology: Multidisciplinary, general & others (11)
Aerospace & aeronautics engineering (5)
Chemical engineering (1)
Materials science & engineering (1)
Mechanical engineering (1)

Publications (total 16)

The most downloaded
721 downloads
Arnst, M., Hoang Truong, V., Cerquaglia, M. L., Xhardez, J., & Dell'Elce, L. (2014). Elements of stochastic processes 2013-2014: course material. (ULiège - Université de Liège, MATH0488 Elements of stochastic processes). https://hdl.handle.net/2268/164223

The most cited

32 citations (Scopus®)

Cerquaglia, M. L., Thomas, D., Boman, R., Terrapon, V., & Ponthot, J.-P. (2019). A fully partitioned Lagrangian framework for FSI problems characterized by free surfaces, large solid deformations and displacements, and strong added-mass effects. Computer Methods in Applied Mechanics and Engineering, 348, 409-442. doi:10.1016/j.cma.2019.01.021 https://hdl.handle.net/2268/232595

Thomas, D., Cerquaglia, M. L., Boman, R., Economon, T., Alonso, J., Dimitriadis, G., & Terrapon, V. (2019). CUPyDO - An integrated Python environment for coupled fluid-structure simulations. Advances in Engineering Software. doi:10.1016/j.advengsoft.2018.05.007
Peer Reviewed verified by ORBi

Cerquaglia, M. L., Thomas, D., Boman, R., Terrapon, V., & Ponthot, J.-P. (2019). A fully partitioned Lagrangian framework for FSI problems characterized by free surfaces, large solid deformations and displacements, and strong added-mass effects. Computer Methods in Applied Mechanics and Engineering, 348, 409-442. doi:10.1016/j.cma.2019.01.021
Peer Reviewed verified by ORBi

Cerquaglia, M. L. (2019). Development of a fully-partitioned PFEM-FEM approach for fluid-structure interaction problems characterized by free surfaces, large solid deformations, and strong added-mass effects [Doctoral thesis, ULiège - Université de Liège]. ORBi-University of Liège. https://orbi.uliege.be/handle/2268/233166

Thomas, D., Cerquaglia, M. L., Boman, R., Dimitriadis, G., & Terrapon, V. (13 September 2018). Demonstration of a unified and flexible coupling environment for nonlinear fluid-structure interaction [Paper presentation]. Collaborative Conference on Physics Series, CCPS 2018, Barcelona, Spain.

Cerquaglia, M. L., Boman, R., Deliège, G., Papeleux, L., & Ponthot, J.-P. (14 June 2017). PFEM-FEM coupling for fluid-structure interaction problems involving free surfaces and large solid deformations [Paper presentation]. VII International Conference on Computational Methods for Coupled Problems in Science and Engineering (COUPLED 2017).

Cerquaglia, M. L., Deliège, G., Boman, R., Papeleux, L., & Ponthot, J.-P. (2017). The particle finite element method for the numerical simulation of bird strike. International Journal of Impact Engineering. doi:10.1016/j.ijimpeng.2017.05.014
Peer Reviewed verified by ORBi

Cerquaglia, M. L., Deliège, G., Boman, R., & Ponthot, J.-P. (2017). Preliminary assessment of the possibilities of the Particle Finite Element Method in the numerical simulation of bird impact on aeronautical structures. Procedia Engineering, 173, 101-108. doi:10.1016/j.proeng.2016.12.043
Peer Reviewed verified by ORBi

Cerquaglia, M. L., Deliège, G., Boman, R., & Ponthot, J.-P. (09 June 2016). Two novel ways to impose free-slip boundary conditions in fluid-structure interaction problems using the Particle Finite Element Method [Paper presentation]. ECCOMAS 2016.

Cerquaglia, M. L., Deliège, G., Boman, R., Terrapon, V., & Ponthot, J.-P. (2016). Free-slip boundary conditions for simulating free-surface incompressible flows through the Particle Finite Element Method. International Journal for Numerical Methods in Engineering. doi:10.1002/nme.5439
Peer Reviewed verified by ORBi

Cerquaglia, M. L., Deliège, G., Boman, R., Papeleux, L., Terrapon, V., & Ponthot, J.-P. (28 September 2015). On some drawbacks and possible improvements of a Lagrangian Finite Element method for simulating incompressible flows [Paper presentation]. Particles 2015.

Cerquaglia, M. L., Deliège, G., Boman, R., Papeleux, L., Terrapon, V., & Ponthot, J.-P. (08 September 2015). On some drawbacks and possible improvements of a Particle Finite Element Method for simulating incompressible flows [Paper presentation]. 8th International Workshop on Meshfree Methods.

Cerquaglia, M. L. (2015). The «mystery» of the pop up height of rising buoyant spheres.

Cerquaglia, M. L., Deliège, G., Boman, R., Papeleux, L., Terrapon, V., & Ponthot, J.-P. (2015). On some drawbacks and possible improvements of a Lagrangian finite element approach for simulating incompressible flows. In E. Oñate, M. Bischoff, D. R. J. Owen, P. Wriggers, ... T. Zohdi, Proceedings of the IV International Conference on Particle-Based Methods – Fundamentals and Applications. Barcelona, Spain: International Center for Numerical Methods in Engineering (CIMNE).

Cerquaglia, M. L. (19 March 2014). An introduction to the PFEM (Particle-Finite Element Method) [Paper presentation]. Séminaires du département d'Aérospatiale et Mécanique de l'Université de Liège.

Arnst, M., Hoang Truong, V., Cerquaglia, M. L., Xhardez, J., & Dell'Elce, L. (2014). Elements of stochastic processes 2013-2014: course material. (ULiège - Université de Liège, MATH0488 Elements of stochastic processes).

Cerquaglia, M. L. (2014). An introduction to SPH (Smoothed Particle Hydrodynamics).

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