How to cite this paper
Benkherbache, H., Amroune, S., Zaoui, M., Mohamad, B., Silema, M & Saidani, H. (2021). Characterization and mechanical behaviour of similar and dissimilar parts joined by rotary friction welding.Engineering Solid Mechanics, 9(1), 23-30.
Refrences
Alves, E. P., Piorino Neto, F., & An, C. Y. (2010). Welding of AA1050 aluminum with AISI 304 stainless steel by rotary friction welding process. Journal of Aerospace Technology and Management, 2(3), 301-306.
Alves, E. P., Toledo, R. C., Piorino Neto, F., Botter, F. G., & Ying An, C. (2019). Experimental Thermal Analysis in Rotary Friction Welding of Dissimilar Materials. Journal of Aerospace Technology and Management, 11.
Anandaraj, J. A., Rajakumar, S., & Balasubramanian, V. (2020). Investigation on mechanical and metallurgical properties of rotary friction welded In718/SS410 dissimilar materials. Materials Today: Proceedings.
Balalan, Z. & Ekinci, O. (2018). Effect of Rotation Speed Parameter on Mechanical Properties of Similar AISI 1040 Parts Joined by Friction Welding, Metallofiz. Noveishie Tekhnol., 40(12) 1699-1707.
Buffa, G., Fratini, L., Hua, J., & Shivpuri, R. (2006). Friction stir welding of tailored blanks: investigation on process feasibility. CIRP Annals-Manufacturing Technology, 55(1), 279-282.
Cheniti, B., Miroud, D., Badji, R., Hvizdoš, P., Fides, M., Csanádi, T., ... & Tata, M. (2019). Microstructure and mechanical behavior of dissimilar AISI 304L/WC-Co cermet rotary friction welds. Materials Science and Engineering: A, 758, 36-46.
Damodaram, R., Karthik, G. M., & Lalam, S. V. (2019). Microstructure and mechanical properties of a rotary friction welded tungsten heavy alloy. Materials Testing, 61(3), 209-212.
Fukumoto, S., Tsubakino, H., Okita, K., Aritoshi, M., & Tomita, T. (1999). Friction welding process of 5052 aluminium alloy to 304 stainless steel. Materials Science and Technology, 15(9), 1080-1086.
Jin, F., Li, J., Liu, P., Nan, X., Li, X., Xiong, J., & Zhang, F. (2019). Friction coefficient model and joint formation in rotary friction welding. Journal of Manufacturing Processes, 46, 286-297.
Li, P., Sun, H., Wang, S., Hao, X., & Dong, H. (2020). Rotary friction welding of AlCoCrFeNi2. 1 eutectic high entropy alloy. Journal of Alloys and Compounds, 814, 152322.
Li, W., Vairis, A., Preuss, M., & Ma, T. (2016). Linear and rotary friction welding review. International Materials Reviews, 61(2), 71-100.
Łukaszewicz, A. (2018). Nonlinear numerical model of friction heating during rotary friction welding. Journal of Friction and Wear, 39(6), 476-482.
Meisnar, M., Baker, S., Bennett, J. M., Bernad, A., Mostafa, A., Resch, S., ... & Norman, A. (2017). Microstructural characterisation of rotary friction welded AA6082 and Ti-6Al-4V dissimilar joints. Materials & Design, 132, 188-197.
Nan, X., Xiong, J., Jin, F., Li, X., Liao, Z., Zhang, F., & Li, J. (2019). Modeling of rotary friction welding process based on maximum entropy production principle. Journal of Manufacturing Processes, 37, 21-27.
Rößler, C., Schmicker, D., Naumenko, K., & Woschke, E. (2018). Adaption of a Carreau fluid law formulation for residual stress determination in rotary friction welds. Journal of Materials Processing Technology, 252, 567-572.
Rostamiyan, Y., Seidanloo, A., Sohrabpoor, H., & Teimouri, R. (2015). Experimental studies on ultrasonically assisted friction stir spot welding of AA6061. Archives of Civil and Mechanical Engineering, 15(2), 335-346.
Sathiya, P., Aravindan, S., & Haq, A. N. (2005). Mechanical and metallurgical properties of friction welded AISI 304 austenitic stainless steel. The International Journal of Advanced Manufacturing Technology, 26(5-6), 505-511.
Shubhavardhan, R., & Surendran, S. (2018). Microstructure and fracture behavior of friction stir lap welding of dissimilar metals. Engineering Solid Mechanics, 6(1), 1-10.
Sketchley, P. D., Threadgill, P. L., & Wright, I. G. (2002). Rotary friction welding of an Fe3Al based ODS alloy. Materials Science and Engineering: A, 329, 756-762.
Stütz, M., Buzolin, R., Pixner, F., Poletti, C., & Enzinger, N. (2019). Microstructure development of molybdenum during rotary friction welding. Materials Characterization, 151, 506-518.
Stütz, M., Pixner, F., Wagner, J., Reheis, N., Raiser, E., Kestler, H., & Enzinger, N. (2018). Rotary friction welding of molybdenum components. International Journal of Refractory Metals and Hard Materials, 73, 79-84.
Thomas, W. M., Nicholas, E. D., Watts, E. R., & Staines, D. G. (2002). Friction based welding technology for aluminium. In Materials Science Forum (Vol. 396, pp. 1543-1548). Trans Tech Publications Ltd.
Vairis, A., Papazafeiropoulos, G., & Tsainis, A. M. (2016). A comparison between friction stir welding, linear friction welding and rotary friction welding. Advances in Manufacturing, 4(4), 296-304.
Winiczenko, R., Goroch, O., Krzyńska, A., & Kaczorowski, M. (2017). Friction welding of tungsten heavy alloy with aluminium alloy. Journal of Materials Processing Technology, 246, 42-55.
Xu, W., Liu, J., Luan, G., & Dong, C. (2009). Temperature evolution, microstructure and mechanical properties of friction stir welded thick 2219-O aluminum alloy joints. Materials & Design, 30(6), 1886-1893.
Zhao, S., Wang, M., Kou, S., Jia, Z., Wang, W., Li, Q., & Luo, G. N. (2020). Realization of ODS-Cu/T91 Tube-to-tube Joining with Rotary Friction Welding. Fusion Engineering and Design, 158, 111699.
Alves, E. P., Toledo, R. C., Piorino Neto, F., Botter, F. G., & Ying An, C. (2019). Experimental Thermal Analysis in Rotary Friction Welding of Dissimilar Materials. Journal of Aerospace Technology and Management, 11.
Anandaraj, J. A., Rajakumar, S., & Balasubramanian, V. (2020). Investigation on mechanical and metallurgical properties of rotary friction welded In718/SS410 dissimilar materials. Materials Today: Proceedings.
Balalan, Z. & Ekinci, O. (2018). Effect of Rotation Speed Parameter on Mechanical Properties of Similar AISI 1040 Parts Joined by Friction Welding, Metallofiz. Noveishie Tekhnol., 40(12) 1699-1707.
Buffa, G., Fratini, L., Hua, J., & Shivpuri, R. (2006). Friction stir welding of tailored blanks: investigation on process feasibility. CIRP Annals-Manufacturing Technology, 55(1), 279-282.
Cheniti, B., Miroud, D., Badji, R., Hvizdoš, P., Fides, M., Csanádi, T., ... & Tata, M. (2019). Microstructure and mechanical behavior of dissimilar AISI 304L/WC-Co cermet rotary friction welds. Materials Science and Engineering: A, 758, 36-46.
Damodaram, R., Karthik, G. M., & Lalam, S. V. (2019). Microstructure and mechanical properties of a rotary friction welded tungsten heavy alloy. Materials Testing, 61(3), 209-212.
Fukumoto, S., Tsubakino, H., Okita, K., Aritoshi, M., & Tomita, T. (1999). Friction welding process of 5052 aluminium alloy to 304 stainless steel. Materials Science and Technology, 15(9), 1080-1086.
Jin, F., Li, J., Liu, P., Nan, X., Li, X., Xiong, J., & Zhang, F. (2019). Friction coefficient model and joint formation in rotary friction welding. Journal of Manufacturing Processes, 46, 286-297.
Li, P., Sun, H., Wang, S., Hao, X., & Dong, H. (2020). Rotary friction welding of AlCoCrFeNi2. 1 eutectic high entropy alloy. Journal of Alloys and Compounds, 814, 152322.
Li, W., Vairis, A., Preuss, M., & Ma, T. (2016). Linear and rotary friction welding review. International Materials Reviews, 61(2), 71-100.
Łukaszewicz, A. (2018). Nonlinear numerical model of friction heating during rotary friction welding. Journal of Friction and Wear, 39(6), 476-482.
Meisnar, M., Baker, S., Bennett, J. M., Bernad, A., Mostafa, A., Resch, S., ... & Norman, A. (2017). Microstructural characterisation of rotary friction welded AA6082 and Ti-6Al-4V dissimilar joints. Materials & Design, 132, 188-197.
Nan, X., Xiong, J., Jin, F., Li, X., Liao, Z., Zhang, F., & Li, J. (2019). Modeling of rotary friction welding process based on maximum entropy production principle. Journal of Manufacturing Processes, 37, 21-27.
Rößler, C., Schmicker, D., Naumenko, K., & Woschke, E. (2018). Adaption of a Carreau fluid law formulation for residual stress determination in rotary friction welds. Journal of Materials Processing Technology, 252, 567-572.
Rostamiyan, Y., Seidanloo, A., Sohrabpoor, H., & Teimouri, R. (2015). Experimental studies on ultrasonically assisted friction stir spot welding of AA6061. Archives of Civil and Mechanical Engineering, 15(2), 335-346.
Sathiya, P., Aravindan, S., & Haq, A. N. (2005). Mechanical and metallurgical properties of friction welded AISI 304 austenitic stainless steel. The International Journal of Advanced Manufacturing Technology, 26(5-6), 505-511.
Shubhavardhan, R., & Surendran, S. (2018). Microstructure and fracture behavior of friction stir lap welding of dissimilar metals. Engineering Solid Mechanics, 6(1), 1-10.
Sketchley, P. D., Threadgill, P. L., & Wright, I. G. (2002). Rotary friction welding of an Fe3Al based ODS alloy. Materials Science and Engineering: A, 329, 756-762.
Stütz, M., Buzolin, R., Pixner, F., Poletti, C., & Enzinger, N. (2019). Microstructure development of molybdenum during rotary friction welding. Materials Characterization, 151, 506-518.
Stütz, M., Pixner, F., Wagner, J., Reheis, N., Raiser, E., Kestler, H., & Enzinger, N. (2018). Rotary friction welding of molybdenum components. International Journal of Refractory Metals and Hard Materials, 73, 79-84.
Thomas, W. M., Nicholas, E. D., Watts, E. R., & Staines, D. G. (2002). Friction based welding technology for aluminium. In Materials Science Forum (Vol. 396, pp. 1543-1548). Trans Tech Publications Ltd.
Vairis, A., Papazafeiropoulos, G., & Tsainis, A. M. (2016). A comparison between friction stir welding, linear friction welding and rotary friction welding. Advances in Manufacturing, 4(4), 296-304.
Winiczenko, R., Goroch, O., Krzyńska, A., & Kaczorowski, M. (2017). Friction welding of tungsten heavy alloy with aluminium alloy. Journal of Materials Processing Technology, 246, 42-55.
Xu, W., Liu, J., Luan, G., & Dong, C. (2009). Temperature evolution, microstructure and mechanical properties of friction stir welded thick 2219-O aluminum alloy joints. Materials & Design, 30(6), 1886-1893.
Zhao, S., Wang, M., Kou, S., Jia, Z., Wang, W., Li, Q., & Luo, G. N. (2020). Realization of ODS-Cu/T91 Tube-to-tube Joining with Rotary Friction Welding. Fusion Engineering and Design, 158, 111699.