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JIA

Chang H., Jia Y., Boungomba H., Naceur H., Dubar L. (2026). Development of a predictive multi-material and multi-physics model based on volume-of-fluid for simulating wire laser additive manufacturing process. International Journal of Heat and Mass Transfer, 255, pp. 127893 [DOI=https://doi.org/10.1016/j.ijheatmasstransfer.2025.127893].

Huang H., Jia Y., Naceur H. (2025). Elastoplastic bending analysis of functionally graded materials structure under variable loads by a meshless method. Composite Structures, 372, pp. 119544 [DOI=https://doi.org/10.1016/j.compstruct.2025.119544].

Jia Y., Jegou L., Feulvarch E., Saadlaoui Y., Kaftandjian V., Elguedj T., Dubar L., Bergheau J.-M. (2024). An improved Arbitrary Lagrangian–Eulerian thermal-fluid model by considering powder deposition effects on melting pool during Direct Energy Deposition processes. Additive Manufacturing, pp. 104570 [DOI=https://doi.org/10.1016/j.addma.2024.104570].

Jia Y., Leblond J.-B., Roux J.-C., Bergheau J.-M. (2024). A nodal‑integration‑based finite element method forsolving steady‑state nonlinear problems intheloading's comoving frame. Vol.:(0123456789)Engineering with Computers [DOI=https://doi.org/10.1007/s00366-024-02046-3].

Jia Y., Saadlaoui Y., Feulvarch E., Bergheau J.-M. (2024). An efficient local moving thermal-fluid framework for accelerating heat and mass transfer simulation during welding and additive manufacturing processes. Computer Methods in Applied Mechanics and Engineering, 419, pp. 116673. [IF=7.2] [DOI=https://doi.org/10.1016/j.cma.2023.116673].

Jia Y., Naceur H., Saadlaoui Y., Dubar L., Bergheau J.-M. (2024). A comprehensive comparison of modeling strategies and simulation techniques applied in powder-based metallic additive manufacturing processes. Journal of Manufacturing Processes, 110, pp. 1-29. [IF=6.2] [DOI=https://doi.org/10.1016/j.jmapro.2023.12.048].

Jia Y., Saadlaoui Y., Roux J.-C., Bergheau J.-M. (2022). Steady-state thermal model based on new dedicated boundary conditions – application in the simulation of laser powder bed fusion process. Applied Mathematical Modelling, 112, pp. 749-766 [DOI=https://doi.org/10.1016/j.apm.2022.08.013].

Jia Y., Saadlaoui Y., Hamdi H., Sijobert J., Roux J.-C., Bergheau J.-M. (2022). An experimental and numerical case study of thermal and mechanical consequences induced by laser welding process. Case Studies in Thermal Engineering, 35, pp. 102078 [DOI=https://doi.org/10.1016/j.csite.2022.102078].

Jia Y., Leblond J.-B., Bergheau J.-M. (2022). Exact satisfaction of boundary and interface conditions in nodal-integration-based finite element methods. Comptes Rendus. Mécanique, 350, pp. 57-83 [DOI=https://doi.org/10.5802/crmeca.103].

Jia Y., Saadlaoui Y., Bergheau J.-M. (2021). A Temperature-Dependent Heat Source for Simulating Deep Penetration in Selective Laser Melting Process. applied sciences, 11(23), pp. 11406 [DOI=https://doi.org/10.3390/app112311406].

Jia Y., Bergheau J.-M., Leblond J.-B., Roux J.-C., Bouchaoui R., Gallée S., Brosse A. (2020). A New Nodal-Integration-Based Finite Element Method for the Numerical Simulation of Welding Processes. metals, 10(10), pp. 1386 [DOI=https://doi.org/10.3390/met10101386].

Chang H., Jia Y., Boungomba H., Flint T., Naceur H., Dubar L. (2025). Effect d'une source de chaleur avec ou sans ray tracing dans la simulation multi-matériaux et multiphysique du procédé WLAM. 26e Congrès Français de Mécanique, Metz, France, août .

Huang H., Jia Y., Naceur H. (2025). Elastoplastic Deformation in Metal Forming by using a 2D Shell-based SPH Model: Validation through Wagoner Deep Drawing Test. The 13th International Conference and Workshop on Numerical Simulation of 3D Sheet Metal Forming Processes, Munich, Germany, juillet .

Jia Y., Saadlaoui Y., Roux J.-C., Bergheau J.-M. (2024). Modèle thermique stationnaire basé sur de nouvelles conditions aux limites : application à la simulation de la fusion laser sur un lit de poudre LBFM.. CSMA 2024, Giens,France, mai .

Jia Y., Saadlaoui Y., Bergheau J.-M. (2024). An efficient steady-state thermal model for predicting the lack-of-fusion porosity during laser powder bed fusion process. ESAFORM 2024, Toulouse – France, avril .

Jia Y., Boungomba H., Sadat T., Moreau P., Dubois A., Guérin J.-D., Dubar M., Dubar L., Feulvarch E., Bergheau J.-M. (2024). Numerical simulation of WLAM process for Metal Forming Tool Repair. International Metal Additive Manufacturing Symposium, Senlis, France, mars .

Boungomba H., Moreau P., Jia Y., Sadat T., Dubar M., Guérin J.-D., Dubois A., Dubar L. (2024). Optimization of WLAM process Parameters for Metal Forming Tool Repair. International Metal Additive Manufacturing Symposium, Senlis, France, mars .

Jia Y., Saadlaoui Y., Bergheau J.-M. (2022). Un modèle adaptatif de source de chaleur pour simuler le procédé de la fusion sélective par laser en cas de pénétration profonde. 15ème colloque national en calcul des structures, Hyères-les-Palmiers, France, mai .

Jia Y., Feulvarch E., Boungomba H., Dubar L., Naceur H., Bergheau J.-M. (2024). Simulation l'apport du matière durant le procédé WLAM par la méthode Lagrangienne Eulerienne Arbitraire. CSMA 2024, Presqu'ile de Giens, mai .