Additive friction stir deposition induced stress ripples in aluminum alloy
Author:
Funder
State of Texas
Publisher
Springer Science and Business Media LLC
Link
https://link.springer.com/content/pdf/10.1007/s00170-024-13900-5.pdf
Reference51 articles.
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2. Khodabakhshi F, Simchi A, Kokabi AH, Švec P, Simančík F, Gerlich AP (2015) Effects of nanometric inclusions on the microstructural characteristics and strengthening of a friction-stir processed aluminum–magnesium alloy. Mater Sci Engineering: A 642:215–229
3. Hang ZY, Jones ME, Brady GW, Griffiths RJ, Garcia D, Rauch HA, Cox CD, Hardwick N (2018) Non-beam-based metal additive manufacturing enabled by additive friction stir deposition. Scripta Mater 153:122
4. Assidi M, Fourment L, Guerdoux S, Nelson T (2010) Friction model for friction stir welding process simulation: calibrations from welding experiments. Int J Mach Tools Manuf 50(2):143
5. Jin Y, Yang T, Wang T, Dowden S, Neogi A, Dahotre NB (2023) Behavioral simulations and experimental evaluations of stress-induced spatial nonuniformity of dynamic bulk modulus in additive friction stir deposited AA 6061. J Manuf Process 94:454
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