References
- Ikeda R, Okita Y, Ono M, et al. Development of advanced resistance spot welding process using control of electrode force and welding current during welding. Q J Japan Weld Soc. 2010;28(1):141–148.
- Wang J, Wang HP, Lu F, et al. Analysis of Al-steel resistance spot welding process by developing a fully coupled multi-physics simulation model. Int J Heat Mass Transf. 2015;89:1061–1072.
- Yasuyama M, Ogawa K, Taka T. Spot welding of aluminum and steel sheet with insert of aluminum clad steel sheet I. Q J Japan Weld Soc. 1996;14(2):314–320.
- Takeda M, Urushihara W, Matsumoto K, et al. Joining aluminum alloys and steels together with resistance spot welding. KOBE Steel Eng Rep. 2007;69–73:57. (in Japanese)
- Miyamoto K, Nakagawa S, Sugi C, et al. Dissimilar joining of aluminum alloy and steel by resistance spot welding. Transactions of the society of automotive engineers of Japan. 2009;43:867–872. (in Japanese)
- Wan Z, Wang HP, Chen N, et al. Characterization of intermetallic compounds at the interfaces of Al- steel resistance spot welds. J Mater Process Technol. 2017;242:12–23.
- Niho T, Horie T, Morita Y, et al. Elasto-Plastic contact, electric current and thermal conduction triply coupled analysis model for resistance spot welding. Q J Japan Weld Soc. 2015;33(3):271–282.
- Okachi N, Izawa S, Xiong A-K, et al. Proposal of a Calculation Method for Incompressible Flows Based on the SPH Method, Proceedings of the 16th Symposium on Computational Fluid Dynamics, 2002. p. 23.
- Shigeta M, Watanabe T, Izawa S, et al. Incompressible SPH simulation of double-diffusive convection phenomena. Int J Emerg Multidiscip Fluid Sci. 2009;1(1):1–18.
- Tong M, Browne DJ. Smoothed particle hydrodynamics modelling of the fluid flow and heat transfer in the weld Pool during laser spot welding. IOP Conf Ser: Mater Sci Eng. 2012;27:012080.
- Ito M, Izawa S, Fukunishi Y, et al. SPH Simulation of Gas Arc Welding Process, Seventh International Conference on Computational Fluid Dynamics, ICFD7, 2012. 3706.
- Ito M, Nishio Y, Izawa S, et al. Numerical simulation of joining process in a TIG welding system using incompressible SPH method. Q J Japan Weld Soc. 2015;33(2):34s–38s.
- Komen H, Shigeta M, Tanaka M, et al. Incompressible SPH simulation of weld pool convection with molten metal droplets in a GMA welding. Q J Japan Weld Soc. 2015;33(4):332–340.
- Komen H, Shigeta M, Tanaka M. Numerical simulation of molten metal droplet transfer and weld Pool convection during gas metal arc welding using incompressible smoothed particle hydrodynamics method. Int J Heat Mass Transf. 2018;121:978–985.
- Ueno R, Komen H, Shigeta M, et al. Numerical simulation of droplet transfer with TiO2 flux column during flux cored arc welding by 3D smoothed particle hydrodynamics method. Q J Japan Weld Soc. 2020;38(2):84s–88s.
- Komen H, Shigeta M, Tanaka M, et al. Numerical investigation of heat transfer during submerged arc welding phenomena by coupled DEM-ISPH simulation. Int J Heat Mass Transf. 2021;171:121062–121015.
- Hirata Y, Tanaka M, Shigeta M, et al. Measurements and numerical simulations in arc welding processes. J Japan Weld Soc. 2015;84(1):19–24. (in Japanese)
- Shigeta M. Particle simulations of molten metal flows in arc welding processes. J Japan Weld Soc. 2017;86(6):436–436. 14–20. (in Japanese)
- Shigeta M. Particle Simulations of Molten Metal Flows during Arc Welding Processes Journal of the Society of Automotive Engineer of Japan, 72–10 (2018), 42–46. (in Japanese)
- Shigeta M, Tanaka M. Diagnostics and numerical thermofluid analysis for elucidation of arc welding phenomena. IEEJ Journal. 2020;140(6):350–353. (in Japanese)
- Asai S, Miyasaka F, Nomura K, et al. Recent progress of welding and joining engineering. J Weld Soc. 2020;38-51:89–85.
- Hitoshi G. Particle Method -Computational science for continuum, multiphase flow and granular materials, Japan:Morikita Publishing, 2018.
- Tomita Y, Hashimoto K, Osawa N, et al. Study on approximate analysis of convective heat transfer during line-heating process. J SNAJ, Nihon Zousen Gakkai Ronbunshu. 1998;1998(184):465–472.
- Borrisutthekul R, Miyashita Y, Mutoh Y. Dissimilar material laser welding between magnesium alloy AZ31B and aluminum alloy A5052- O. Sci Technol Adv Mater. 2005;6(2):199–204.
- Ito M, Izawa S, Fukunishi Y, et al. Numerical simulation of weld Pool formation in a TIG welding using an incompressible SPH method. Q J Japan Weld Soc. 2014;32(4):213–222. (in Japanese)
- Babu SS, Santella ML, Feng Z, et al. Empirical model of effects of pressure and temperature on electrical contact resistance of metals. Sci Technol Weld Joining. 2001;6(3):126–132.