References
- Georgantzia E, Gkantou M, Kamaris GS. Aluminium alloys as structural material: a review of research. Eng Struct. 2021;227:111372–111316. doi:10.1016/j.engstruct.2020.111372
- Dwivedi P, Siddiquee AN, Maheshwari S. Issues and requirements for aluminum alloys used in aircraft components. Russ J Non-Ferrous Metals. 2021;62(2):212–225. doi:10.3103/S1067821221020048
- Tisza M, Lukács Z. High strength aluminum alloys in car manufacturing. IOP Conf Ser: Mater Sci Eng. 2018;418:012033. doi:10.1088/1757-899X/418/1/012033
- Horihata K, Sakamoto H, Kitabayashi H. Akihiro Ishikawa: environmentally friendly railway-car technology. Hitachi Rev. 2008;57(1):18–23.
- Asano M. Joining of aluminum. J Jpn Inst Light Met. 1990;40(7):556–569. (in Japanese) doi:10.2464/jilm.40.556
- Kobayashi T. Progress of the aluminum alloy welding. J Jpn Inst Light Met. 1985;35(10):597–607. in Japanese) doi:10.2464/jilm.35.597
- Enjo T, Ikeuchi K, Furukawa K. Behavior of oxide film at bond interface of diffusion bonding of aluminum. J Jpn Inst Light Met. 1985;35(7):388–395. (in Japanese) doi:10.2464/jilm.35.388
- Mohamed HA, Washburn J. Mechanism of Solid-State pressure welding. Welding J. 1975;54(9):302s–310s.
- Morii H. Welding of aluminum. Shinku. 1967;10(5):173–182. (in Japanese) doi:10.3131/jvsj.10.173
- Reichelt WR, Evancho JW, Ho MG. Effects of shielding gas on gas metal arc welding aluminum. Welding J. 1980;59(5):147s–155s.
- Sarrafi R, Kovacevic R. Cathodic cleaning of oxides from aluminum surface by variable-polarity arc. Welding J. 2010;89(1):1s–10s.
- Fumikazu M, Takehisa O, Takayoshi OHJI. Effect of current wave form on AC TIG welding for aluminum alloys. Q J Jpn Welding Soc. 1989;7(1):63–69. (in Japanese)
- Hauser D, Kammer PA, Dedrick JH. Solid-state welding of aluminum. Welding J. 1967;46(1):11–22.
- Baldantoni A, Janeway BJ, Lauzon DC, et al. NOCOLOK™ sil Flux - A novel approach for brazing aluminum. J Mater Manuf. 1994;103:285–291.
- Timsit RS, Janeway BJ. A novel brazing technique for aluminum. Welding J. 1994;73(6):119s–128s.
- Ohashi O, Sasabe K. Effect of welding atmosphere on mechanical properties of diffusion-welded joint. Q J Jpn Welding Soc. 1988;6(1):98–103. (in Japanese) doi:10.2207/qjjws.6.98
- Tsujino J. Ultrasonic metal welding -Ultrasonic complex vibration welding using two-dimensional vibration stress. J Jpn Inst Light Met. 2018;68(1):33–39. (in Japanese) doi:10.2464/jilm.68.33
- Enjo T, Ikeuchi K, Fujita H. Effects of ultrasonic vibration on diffusion welding of aluminum. J Jpn Inst Light Met. 1986;36(8):498–506. (in Japanese) doi:10.2464/jilm.36.498
- Dawes CJ, Thomas WM. Friction stir process welds aluminum alloys. Welding J. 1996;75(3):41–45.
- Sato YS, Takauchi H, Park SHC, et al. Characteristics of the kissing-bond in friction stir welded Al alloy 1050. Mater Sci Eng A. 2005;405(1–2):333–338. doi:10.1016/j.msea.2005.06.008
- Kawakami H, Oda Y. Effect of frequency on self-induced fusion solidification bonding of aluminium by pressure-controlled periodic motion. Weld Int. 2019;33(4–6):179–188. doi:10.1080/09507116.2020.1866337
- ASM Handbook. Vol.3: alloy Phase Diagram, ASM International (2016), 326.
- ASM Handbook. Vol.3: alloy Phase Diagram, ASM International (2016), 139.
- Imae Y, Kimura K, Kawakami H. Jippei suzuki: evaluation of Cu, Zn and Sn for Al bonding in air. J Light Met Welding Constr. 2008;46(11):18–22. (in Japanese)
- Kawakami H, Imae Y, Suzuki J. Effect of bonding conditions on vacuum free self-fusion solidification bonding of aluminum. J Light Met Welding. 2012;50(2):312–319. (in Japanese)
- ASM Handbook. Vol.3: alloy Phase Diagram, ASM International (2016), 119.
- Qiu P, Leygraf C. Initial oxidation of brass induced by humidified air. Appl Surf Sci. 2011;258(3):1235–1241. doi:10.1016/j.apsusc.2011.09.080
- Preston GD, Bircumshaw LL. LI. Studies on the oxidation of metal, part II. Copper, brass, aluminium-brass, aluminium-bronze, magnesium, and some magnesium alloys. London, Edinburgh Dublin Philos Mag J Sci. 1935;20(134):706–720. doi:10.1080/14786443508561511
- Branson DL. Kinetics and mechanism of the reaction between zinc oxide and aluminum oxide. J Am Ceram Soc. 1965;48(11):591–595. doi:10.1111/j.1151-2916.1965.tb14679.x
- Ghosh G, van Humbeeck J, Perrot P. Al-Cu-Zn (aluminium - copper - zinc). Landolt-Börnstein - Group IV Physical Chemistry. 2005;11A2:182–205.