FE simulation and experimental verification of tube cladding process using spherical tipped punch
Alshammari, â., Abd-Eltwab, A., H Abdel Daiam, I., Abdelrhman, Y., Mohamed, E. (2025). FE simulation and experimental verification of tube cladding process using spherical tipped punch. EKB Journal Management System, (), -. doi: 10.21608/jesaun.2025.417362.1709
‪Shalaan Ali Alshammari; Ayman Ali Abd-Eltwab; Ibrahim H Abdel Daiam; Yasser Abdelrhman; Eman Sayed Mohamed. "FE simulation and experimental verification of tube cladding process using spherical tipped punch". EKB Journal Management System, , , 2025, -. doi: 10.21608/jesaun.2025.417362.1709
Alshammari, â., Abd-Eltwab, A., H Abdel Daiam, I., Abdelrhman, Y., Mohamed, E. (2025). 'FE simulation and experimental verification of tube cladding process using spherical tipped punch', EKB Journal Management System, (), pp. -. doi: 10.21608/jesaun.2025.417362.1709
Alshammari, â., Abd-Eltwab, A., H Abdel Daiam, I., Abdelrhman, Y., Mohamed, E. FE simulation and experimental verification of tube cladding process using spherical tipped punch. EKB Journal Management System, 2025; (): -. doi: 10.21608/jesaun.2025.417362.1709

FE simulation and experimental verification of tube cladding process using spherical tipped punch

JES. Journal of Engineering Sciences
Articles in Press, Accepted Manuscript, Available Online from 10 November 2025
Document Type: Research Paper
DOI: 10.21608/jesaun.2025.417362.1709
Authors
‪Shalaan Ali Alshammari* 1; Ayman Ali Abd-Eltwab2; Ibrahim H Abdel Daiam3; Yasser Abdelrhman4; Eman Sayed Mohamed5
1Design and Manufacturing Department, Faculty of Engineering, Assiut University
2Mechanical engineering department faculty of engineering Beni-Sufe university
3Mechanical Department, Faculty of Engineering, Assiut University, Assiut 71516, Egypt
4- Mechanical Design and Production Engineering Department - Faculty of Engineering - Assiut University - Mechanical and Industrial Engineering Department, College of Engineering, Majmaah University, Al-Majmaah 11952, Saudi Arabia
5Design and Production Engineering Department-Faculty of Engineering-Assiut University
Abstract
Bimetallic tubes are increasingly utilized in heat exchangers, petrochemical transport, and renewable-energy systems due to their ability to combine structural strength with cost efficiency. This study introduces a novel press-based tube cladding process using a spherical-tipped punch to achieve localized plastic deformation for bonding AA6060 aluminum inner tubes with SS304 stainless-steel outer tubes. A comprehensive experimental program supported by validated FE simulations (≤5 % deviation) was conducted to investigate the influence of axial feed rate and friction mode on forming load, interfacial bonding quality, hardness, and surface integrity. Results showed that the process achieved complete bonding at a feed rate of 0.33 mm/min, with a significantly reduced forming load of 60.30 kN compared to the 80–100 kN range reported in conventional cladding studies. The maximum interfacial shear strength reached 2683 kgf, accompanied by a minimum surface roughness of 0.44 µm, indicating excellent metallurgical adhesion and smooth surface finish. Conversely, higher feed rates of 2 and 5 mm/min resulted in partial bonding, increased roughness, and premature flange failure due to accelerated material accumulation. The FE predictions confirmed that Coulomb friction (μ = 0.25) provided the most accurate representation of experimental force evolution. The proposed forming strategy demonstrates a substantial improvement in energy efficiency, bond quality, and process controllability compared to rotary swaging, spin-bonding, and explosive cladding methods, highlighting its potential as a scalable and industrially viable technique for manufacturing high-performance SS/Al bimetallic tubes.
Keywords
Tube cladding; SS/Al bimetallic tubes; spherical tipped punch; severe plastic deformation; FEM
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