PSI - Issue 80

R. Salem et al. / Procedia Structural Integrity 80 (2026) 256–268 Rania Salem / Structural Integrity Procedia 00 (2025) 000 – 000

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Alami, A.H., et al., 2023. Additive manufacturing in the aerospace and automotive industries: Recent trends and role in achieving sustainable development goals. Ain Shams Engineering Journal, 14(11), 102516. Aliheidari, N., et al., 2018. Interlayer adhesion and fracture resistance of polymers printed through melt extrusion additive manufacturing process. Materials & Design, 156, 351 – 361. Sahoo, S., et al., 2024. Analysis of mesostructural characteristics and their influence on tensile strength of ABS specimens manufactured through fused deposition modeling. International Journal of Advanced Manufacturing Technology, 132, 349 – 363. Akhoundi, B., Behravesh, A.H., 2019. Effect of filling pattern on the tensile and flexural mechanical properties of FDM 3D printed products. Experimental Mechanics. Sola, A., et al., 2023. Open challenges in tensile testing of additively manufactured polymers: A literature survey and a case study in fused filament fabrication. Polymer Testing, 117, 107859. Al-Maharma, A., et al., 2020. Effects of porosity on the mechanical properties of additively manufactured components: A critical review. Materials Research Express, 7, 122001. Ramezani Dana, H., et al., 2019. Polymer additive manufacturing of ABS structure: Influence of printing direction on mechanical properties. Journal of Manufacturing Processes, 44, 288 – 298. Hebda, M., et al., 2019. A method for predicting geometric characteristics of polymer deposition during fused filament-fabrication. Additive Manufacturing, 27, 99 – 108. Gonabadi, H., et al., 2024. Size effects of voids on the mechanical properties of 3D printed parts. International Journal of Advanced Manufacturing Technology, 132, 5439 – 5456. Tao, Y., et al., 2021. A review on voids of 3D printed parts by fused filament fabrication. Journal of Materials Research and Technology, 15, 4860 – 4879. Kumar, M.S., et al., 2023. Achieving effective interlayer bonding of PLA parts during the material extrusion process with enhanced mechanical properties. Scientific Reports, 13, 6800. Sun, Q., et al., 2008. Effect of processing conditions on the bonding quality of FDM polymer filaments. Rapid Prototyping Journal, 14(2), 72 – 80. Anoop, M.S., Senthil, P., 2019. Homogenisation of elastic properties in FDM components using microscale RVE numerical analysis. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 41(12). Bellehumeur, C., et al., 2004. Modeling of bond formation between polymer filaments in the fused deposition modeling process. Journal of Manufacturing Processes, 6(2), 170 – 178. Sharafi, S., et al., 2022. A multiscale modeling approach of the Fused Filament Fabrication process to predict the mechanical response of 3D printed parts. Additive Manufacturing, 51, 102597. Paux, J., et al., 2023. Influence of printing irregularities on the elastic behavior and mesostructural stress concentrations in material extrusion additive manufacturing — A numerical approach based on X-ray tomography. Additive Manufacturing, 76, 103760.