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An Experimental Study on the process parameters of Incremental Forming of Explosively-Welded Al/Cu Bimetal | ||
| Journal of Computational & Applied Research in Mechanical Engineering (JCARME) | ||
| مقاله 7، دوره 7، شماره 1 - شماره پیاپی 13، آبان 2017، صفحه 73-83 اصل مقاله (826.5 K) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22061/jcarme.2017.646 | ||
| نویسندگان | ||
| Mohammad Honarpisheh* 1؛ Ahmad Gheysarian2 | ||
| 1university of kashan | ||
| 2University of Kashan | ||
| تاریخ دریافت: 02 شهریور 1395، تاریخ بازنگری: 23 آبان 1395، تاریخ پذیرش: 13 بهمن 1395 | ||
| چکیده | ||
| Single point incremental sheet metal forming is a sheet metal forming process that forms products without the complex dies and tools with low cost. In this study, the incremental sheet metal forming process has been experimentally investigated on the explosively-welded Al/Cu bimetal sheets. Also, the effects of process parameters, such as arrangement of layer`s bimetal, tool diameter and tool path were investigated on the forming force, thickness distribution, formability and roughness. At first, the bimetals were produced by explosive welding process. Then, two tool diameters, step and spiral tool paths and layer arrangement were chosen as input parameters. The results showed that the forming force increases with increasing the tool diameter and using aluminum as a top layer (contact with tool). Also, using spiral tool path increases the average forming force and decreases the maximum thickness changing. The formability increases with increasing the tool diameter and using the copper as top layer with spiral tool path. | ||
| کلیدواژهها | ||
| Incremental forming؛ Explosively-welded Al/Cu؛ Layer Arrangement؛ Forming force؛ Thickness distribution؛ Formability | ||
| مراجع | ||
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[1] Cristino, V. A. M., L. Montanari, M. B. Silva, and P. A. F. Martins. "Towards square hole-flanging produced by single point incremental forming." Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials Design and Applications Vol. 229, No. 5, pp. 380-388, (2015).
[2] J. E. Jeswiet, Hagan, and A. Szekeres. "Forming parameters for incremental forming of aluminium alloy sheet metal." Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture Vol. 216, No. 10, pp. 1367-1371, (2002).
[3] M. B. Silva, Pedro Teixeira, Ana Reis, and P. A. F. Martins. "On the formability of hole-flanging by incremental sheet forming." Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials Design and Applications (2013): 1464420712474210.
[4] L. V. Montanari, A. Cristino, M. B. Silva, and P. A. F. Martins. "On the relative performance of hole-flanging by incremental sheet forming and conventional press-working." Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials Design and Applications Vol. 228, No. 4, pp. 312-322, (2014).
[5] G. Ambrogio, L. Filice, and G. L. Manco. "Warm incremental forming of magnesium alloy AZ31." CIRP AnnalsManufacturing Technology Vol. 57, No. 1, pp. 257-260, (2008).
[6] G. L. Manco, and G. Ambrogio. "Influence of thickness on formability in 6082-T6." International Journal of Material Forming Vol. 3, No. 1, pp. 983- 986, (2010).
[7] M. J. Mirnia, B. Mollaei Dariani, H. Vanhove, and J. R. Duflou, "An investigation into thickness distribution in single point incremental forming using sequential limit analysis." International Journal of Material Forming Vol. 7, No. 4, pp. 469-477, (2014).
[8] E. Hagan, and J. Jeswiet. "Analysis of surface roughness for parts formed by computer numerical controlled incremental forming." Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture Vol. 218, No. 10, pp. 1307- 1312, (2004).
[9] L. Fratini, G. Ambrogio, R. Di Lorenzo, L. Filice, and F. Micari, "Influence of mechanical properties of the sheet material on formability in single point incremental forming." CIRP AnnalsManufacturing Technology Vol. 53, No. 1. pp. 207-210, (2004).
[10] Iseki Hideo, "An approximate deformation analysis and FEM analysis for the incremental bulging of sheet metal using a spherical roller." Journal of Materials Processing Technology Vol. 111, No. 1, pp. 150-154, (2001).
[11] Iseki Hideo, and Takashi Naganawa, "Vertical wall surface forming of rectangular shell using multistage incremental forming with spherical and cylindrical rollers." Journal of materials processing technology, Vol. 130, pp. 675- 679, (2002).
[12] L. Filice, L. Fratini, and F. Micari. "Analysis of material formability in incremental forming." CIRP annalsManufacturing technology Vol. 51, No. 1, pp. 199-202, (2002).
[13] A. Attanasio, E. Ceretti, and C. Giardini, "Optimization of tool path in two points incremental forming." Journal of Materials Processing Technology Vol. 177, No. 1, pp. 409-412, (2006).
[14] D. Young, and J. Jeswiet. "Wall thickness variations in single-point incremental forming." Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture Vol. 218, No. 11, pp. 1453-1459, (2004).
[15] G. Hussain, L. Gao, and Z. Y. Zhang. "Formability evaluation of a pure titanium sheet in the cold incremental forming process." The International Journal of Advanced Manufacturing Technology, Vol. 37, No. 9-10, pp. 920-926, (2008).
[16] K. Hamilton, and J. Jeswiet. "Single point incremental forming at high feed rates and rotational speeds: Surface and structural consequences." CIRP AnnalsManufacturing Technology, Vol. 59, No. 1, pp. 311-314, (2010).
[17] Al-Ghamdi, K. A., and G. Hussain. "SPIF of Cu/steel clad sheet: annealing effect on bond force and formability." Materials and Manufacturing Processes Vol. 31, No. 6, pp. 758-763, (2016).
[18] M. Honarpisheh, M. J. Abdolhoseini, and S. Amini, "Experimental and numerical investigation of the hot incremental forming of Ti-6Al-4V sheet using electrical current." The International Journal of Advanced Manufacturing Technology Vol. 83, No. 9-12, pp. 2027-2037, (2016).
[19] Honarpisheh, M., Niksokhan, J., and F. Nazari. "Investigation of the effects of cold rolling on the mechanical properties of explosively-welded Al/St/Al multilayer sheet." Metallurgical Research & Technology Vol. 113, No. 1 p. 105, (2016). [20] Sedighi, M., and M. Honarpisheh, "Investigation of cold rolling influence on near surface residual stress distribution in explosive welded multilayer."
[20] Sedighi, M., and M. Honarpisheh, "Investigation of cold rolling influence on near surface residual stress distribution in explosive welded multilayer." Strength of Materials Vol. 44, No. 6, pp. 693-698, (2012). [21] Honarpisheh, M., M. J. Abdolhoseini, and S. Amini. "Experimental and numerical investigation of the hot incremental forming of
[21] Honarpisheh, M., M. J. Abdolhoseini, and S. Amini. "Experimental and numerical investigation of the hot incremental forming of Ti-6Al-4V sheet using electrical current." The International Journal of Advanced Manufacturing Technology Vol. 83, No. 9-12, pp. 2027- 2037, (2016). | ||
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