How to cite this paper
Lakhemissi, T., Billel, R., Semcheddine, D & Tidjani, M. (2024). Restoration of tensile properties in cracked aluminum specimens via composite patching.Engineering Solid Mechanics, 12(3), 259-268.
Refrences
Abd-Elhady, A. A., Mousa, S., Alhazmi, W. H., Sallam, H. E. M., & Atta, M. (2021). Effects of composite patching on cyclic crack tip deformation of cracked pinned metallic joints. The Journal of Adhesion, 97(16), 1561-1577.
Ahmed, F., Mohammed, S. M. A. K., Benyahia, F., Bouiadjra, B. A. B., & Albedah, A. (2022, December). Plasticity Analysis in Aluminum Alloy Plates Repaired with Bonded Composite Patch Under Overload. In Proceedings of the 10th International Conference on Fracture Fatigue and Wear: FFW 2022, 2-3 August, Ghent University, Belgium (pp. 21-27). Singapore: Springer Nature Singapore.
Berkia, A., Rebai, B., Litouche, B., Abbas, S., & Mansouri, K. (2023). Investigating parametric homogenization models for natural frequency of FGM nano beams. AIMS Materials Science, 10(5), 891-908.
Bianchi, R. W., Kwon, Y. W., & Alley, E. S. (2019). Composite Patch Repair for Underwater Aluminum Structures. Journal of Offshore Mechanics and Arctic Engineering, 141(6), 064501.
Billel, R. (2022, October). Effect of the Idealization Models and Thermal Loads on Deflection Behavior of Sandwich FGM Plate. In 2022 International Conference on Electrical Engineering and Photonics (EExPolytech) (pp. 260-264). IEEE.
Billel, R. (2023). Contribution to study the effect of (Reuss, LRVE, Tamura) models on the axial and shear stress of sandwich FGM plate (Ti-6A1-4V/ZrO 2) subjected on linear and nonlinear thermal loads. AIMS Materials Science, 10(1).
Dai, J., Zhao, P., Su, H., & Wang, Y. (2020). Mechanical behavior of single patch composite repaired al alloy plates: Experimental and numerical analysis. Materials, 13(12), 2740.
Dehghanpour, S., Nezamabadi, A., Attar, M., Barati, F., & Tajdari, M. (2019). Repairing cracked aluminum plates by aluminum patch using diffusion method. Journal of Mechanical Science and Technology, 33, 4735-4743.
Dehuri, B., & Pradhan, S. S. (2020). Correlations between hardness and tensile strength of cracked aluminium plates repaired with composite patches. Materials Today: Proceedings, 21, 1335-1339.
Dindar, B., & Ağir, İ. (2021). Tensile and buckling properties of notched 6063 aluminum repaired with composite patches. Emerging Materials Research, 10(2), 139-144.
Hart, D. C., & Bruck, H. A. (2020, November). Simplified method for predicting ultimate failure of one-sided composite patched aluminum center crack tension specimens. In AIP Conference Proceedings (Vol. 2309, No. 1). AIP Publishing.
Hart, D. C., & Bruck, H. A. (2021). Predicting failure of cracked aluminum plates with one-sided composite patch. International Journal of Fracture, 227(2), 205-218.
Kadam, S., Kumar, P., & Shinde, H. (2023). Repair of pre-cracked aluminium alloy panel with CFRP bonded patch and its comparison with riveted patch. Materials Today: Proceedings, 72, 1190-1196.
Lokhande, M., Shinde, P. S., Kumar, P., & Shinde, H. P. (2023). Fatigue life of thin pre-cracked aluminum alloy panel repaired with CFRP patch at elevated temperature. Materials journal, 72, 1869-1876.
Makwana, A. H., & Shaikh, A. A. (2019). Towards hybridization of composite patch in repair of cracked Aluminum panel: numerical and experimental study. International Journal of Structural Integrity, 10(6), 868-887.
Nejati, M., Shokrieh, M. M., & Ghasemi Ghalebahman, A. (2023). Reinforcement of cracked aluminum plates using polymeric composite patches embedded with prestressed SMA wires. Journal of Composite Materials, 00219983231184441.
Rebai, B., Mansouri, K., Chitour, M., Berkia, A., Messas, T., Khadraoui, F., & Litouche, B. (2023). Effect of Idealization Models on Deflection of Functionally Graded Material (FGM) Plate.
Shinde, H., Kumar, P., Karnik, M., & Sonawane, N. (2023). Numerical simulation of pre-cracked thin aluminum alloy skin repaired with a FRP patch: Pre-crack length studies. Materials Today: Proceedings, 72, 1774-1779.
Shinde, H., Kumar, P., Karnik, M., Shinde, P., & Todkar, A. (2020). Fatigue analysis of pre-cracked aluminium alloy thin sheets repaired with a CFRP patch at elevated temperature. Journal of the Institution of Engineers (India): Series C, 101, 303-311.
Yousefi, A., Jolaiy, S., Hedayati, R., Serjouei, A., & Bodaghi, M. (2021). Fatigue life improvement of cracked aluminum 6061-T6 plates repaired by composite patches. Materials, 14(6), 1421.
Ahmed, F., Mohammed, S. M. A. K., Benyahia, F., Bouiadjra, B. A. B., & Albedah, A. (2022, December). Plasticity Analysis in Aluminum Alloy Plates Repaired with Bonded Composite Patch Under Overload. In Proceedings of the 10th International Conference on Fracture Fatigue and Wear: FFW 2022, 2-3 August, Ghent University, Belgium (pp. 21-27). Singapore: Springer Nature Singapore.
Berkia, A., Rebai, B., Litouche, B., Abbas, S., & Mansouri, K. (2023). Investigating parametric homogenization models for natural frequency of FGM nano beams. AIMS Materials Science, 10(5), 891-908.
Bianchi, R. W., Kwon, Y. W., & Alley, E. S. (2019). Composite Patch Repair for Underwater Aluminum Structures. Journal of Offshore Mechanics and Arctic Engineering, 141(6), 064501.
Billel, R. (2022, October). Effect of the Idealization Models and Thermal Loads on Deflection Behavior of Sandwich FGM Plate. In 2022 International Conference on Electrical Engineering and Photonics (EExPolytech) (pp. 260-264). IEEE.
Billel, R. (2023). Contribution to study the effect of (Reuss, LRVE, Tamura) models on the axial and shear stress of sandwich FGM plate (Ti-6A1-4V/ZrO 2) subjected on linear and nonlinear thermal loads. AIMS Materials Science, 10(1).
Dai, J., Zhao, P., Su, H., & Wang, Y. (2020). Mechanical behavior of single patch composite repaired al alloy plates: Experimental and numerical analysis. Materials, 13(12), 2740.
Dehghanpour, S., Nezamabadi, A., Attar, M., Barati, F., & Tajdari, M. (2019). Repairing cracked aluminum plates by aluminum patch using diffusion method. Journal of Mechanical Science and Technology, 33, 4735-4743.
Dehuri, B., & Pradhan, S. S. (2020). Correlations between hardness and tensile strength of cracked aluminium plates repaired with composite patches. Materials Today: Proceedings, 21, 1335-1339.
Dindar, B., & Ağir, İ. (2021). Tensile and buckling properties of notched 6063 aluminum repaired with composite patches. Emerging Materials Research, 10(2), 139-144.
Hart, D. C., & Bruck, H. A. (2020, November). Simplified method for predicting ultimate failure of one-sided composite patched aluminum center crack tension specimens. In AIP Conference Proceedings (Vol. 2309, No. 1). AIP Publishing.
Hart, D. C., & Bruck, H. A. (2021). Predicting failure of cracked aluminum plates with one-sided composite patch. International Journal of Fracture, 227(2), 205-218.
Kadam, S., Kumar, P., & Shinde, H. (2023). Repair of pre-cracked aluminium alloy panel with CFRP bonded patch and its comparison with riveted patch. Materials Today: Proceedings, 72, 1190-1196.
Lokhande, M., Shinde, P. S., Kumar, P., & Shinde, H. P. (2023). Fatigue life of thin pre-cracked aluminum alloy panel repaired with CFRP patch at elevated temperature. Materials journal, 72, 1869-1876.
Makwana, A. H., & Shaikh, A. A. (2019). Towards hybridization of composite patch in repair of cracked Aluminum panel: numerical and experimental study. International Journal of Structural Integrity, 10(6), 868-887.
Nejati, M., Shokrieh, M. M., & Ghasemi Ghalebahman, A. (2023). Reinforcement of cracked aluminum plates using polymeric composite patches embedded with prestressed SMA wires. Journal of Composite Materials, 00219983231184441.
Rebai, B., Mansouri, K., Chitour, M., Berkia, A., Messas, T., Khadraoui, F., & Litouche, B. (2023). Effect of Idealization Models on Deflection of Functionally Graded Material (FGM) Plate.
Shinde, H., Kumar, P., Karnik, M., & Sonawane, N. (2023). Numerical simulation of pre-cracked thin aluminum alloy skin repaired with a FRP patch: Pre-crack length studies. Materials Today: Proceedings, 72, 1774-1779.
Shinde, H., Kumar, P., Karnik, M., Shinde, P., & Todkar, A. (2020). Fatigue analysis of pre-cracked aluminium alloy thin sheets repaired with a CFRP patch at elevated temperature. Journal of the Institution of Engineers (India): Series C, 101, 303-311.
Yousefi, A., Jolaiy, S., Hedayati, R., Serjouei, A., & Bodaghi, M. (2021). Fatigue life improvement of cracked aluminum 6061-T6 plates repaired by composite patches. Materials, 14(6), 1421.