PSI - Issue 77

Magdalena Mieloszyk et al. / Procedia Structural Integrity 77 (2026) 256–263 M.Mieloszyk & S.Bhadra / Structural Integrity Procedia 00 (2026) 000–000

263

8

Acknowledgements

The research was supported by the project entitled: Degradation processes of mechanically loaded structures in hydrogen environment (2022 / 45 / B / ST8 / 03494) granted by National Science Centre in Poland. Computations were carried out using the computers of Centre of Informatics Tricity Academic Supercomputer & Network.

References

Biondi, A., Wu, R., Cao, L., Gopalan, B., Ivey, J., Garces, C., Mitchell, M., Williams, J.D., Wang, X., 2022. Fiber optic sensing textile for strain monitoring in composite substrates. Sensors 22, 9262. Birleanu, C., Pustan, M., Cioaza, M., Bere, P., Contiu, G., Dudescu, M.C., Filip, D., 2023. Tribo-mechanical investigation of glass fiber reinforced polymer composites under dry conditions. Polymers 15, 2733. Ciardiello, R., Fiumarella, D., Belingardi, G., 2023. Enhancement of the mechanical performance of glass-fibre-reinforced composites through the infusion process of a thermoplastic recyclable resin. Polymers 15, 3160. Gao, X., Umair, M., Nawab, Y., Latif, Z., Ahmad, S., Siddique, A., Yang, H., 2022. Mode i fatigue of fibre reinforced polymeric composites: a review. Polymers 14, 4558. Gonza´lez-Gallego, M., Terroba Ram´ırez, F., Mart´ınez-Vicente, J.L., Gonza´lez del Val, M., Lo´pez-Cela, J.J., Fro¨vel, M., 2024. Fiber bragg gratings sensor strain–optic behavior with di ff erent polymeric coatings subjected to transverse strain. Polymers 16, 1223. Grisin, B., Carosella, S., Middendorf, P., 2024. Vacuum chamber infusion for fiber-reinforced composites. Polymers 16, 2763. Lee, Y.J., Chung, C.H., 2003. Study on the mechanical properties of marine frp laminates. Journal of composite materials 37, 967–983. Lehmann, M., Stoll, G., Ranisch, C., Bu¨ter, A., Stelzl, D., Starke, P., Pfleiderer, A., Dickhut, T., Schneider, R., Heckrodt, S., 2020. Infusion 4.0-flow front detection in composite parts with fiber optic sensors . Liampas, S., Kladovasilakis, N., Tsongas, K., Pechlivani, E.M., 2024. Recent advances in additive manufacturing of fibre-reinforced materials: a comprehensive review. Applied Sciences 14, 10100. Lu, X., Shen, Y., Xu, T., Sun, H., Zhu, L., Zhang, J., Chang, T., Cui, H.L., 2022. Accurate detection of porosity in glass fiber reinforced polymers by terahertz spectroscopy. Composites Part B: Engineering 242, 110058. Maldonado-Hurtado, D., Madrigal, J., Penades, A., Ruiz, R., Crespo, A.I., Sales, S., 2021. Pultruded frp beams with embedded fibre bragg grating optical sensors for strain measurement and failure detection. Sensors 21, 7019. Mieloszyk, M., Majewska, K., Ostachowicz, W., 2019. Application of thz spectroscopy for localisation of fibre optics embedded into glass fibre reinforced composite. Composite Structures 209, 548–560. Namrata, B., Pai, Y., Nair, V.G., Hegde, N.T., Pai, D.G., 2024. Analysis of aging e ff ects on the mechanical and vibration properties of quasi-isotropic basalt fiber-reinforced polymer composites. Scientific Reports 14, 26730. Peng, Y., Li, M., Yang, X., 2024. Void formation and suppression in cfrp laminate using newly designed ultrasonic vibration assisted rtm technique. Composite Structures 329, 117796. Popan, A., Popan, I.A., Cosma, C., Ceclan, V., BALC, N., 2021. Experimental study on 3d printed parts made of continuous fiberglass reinforced polymer. Acta Technica Napocensis-Series: Applied Mathematics, Mechanics, And Engineering 64. Rimasˇauskas, M., Kuncius, T., Rimasˇauskiene˙, R., 2019. Processing of carbon fiber for 3d printed continuous composite structures. Materials and Manufacturing Processes 34, 1528–1536. Ryu, C.H., Park, S.H., Kim, D.H., Jhang, K.Y., Kim, H.S., 2016. Nondestructive evaluation of hidden multi-delamination in a glass-fiber-reinforced plastic composite using terahertz spectroscopy. Composite Structures 156, 338–347. Shu, W., Liao, L., Zhou, P., Huang, B., Chen, W., 2023. Three-point bending damage detection of gfrp composites doped with graphene oxide by acoustic emission technology. Iscience 26. Struzziero, G., Barbezat, M., Skordos, A.A., 2021. Consolidation of continuous fibre reinforced composites in additive processes: A review. Additive Manufacturing 48, 102458. Thomason, J., Xypolias, G., 2023. Hydrothermal ageing of glass fibre reinforced vinyl ester composites: a review. Polymers 15, 835. Wang, T., Huang, K., Guo, L., Zheng, T., Zeng, F., 2023. An automated vacuum infusion process for manufacturing high-quality fiber-reinforced composites. Composite Structures 309, 116717. Yu, L., Chen, K., Xue, P., Cui, Y., Jia, M., 2021. Impregnation modeling and preparation optimization of continuous glass fiber reinforced polylactic acid filament for 3d printing. Polymer Composites 42, 5731–5742. Zhang, Z., Qin, T., Bao, Y., Liu, R., He, J., 2025. Experimental study on damage monitoring of frp plate using fbg sensors. Micromachines 16, 649. Zheng, H., Zhu, S., Chen, L., Wang, L., Zhang, H., Wang, P., Sun, K., Wang, H., Liu, C., 2025. 3d printing continuous fiber reinforced polymers: A review of material selection, process, and mechanics-function integration for targeted applications. Polymers 17, 1601.