References
- Węglowski MS. Review friction stir processing—state of the art. Arch Civ Mech Eng. 2018;18:114–129.
- Zadafiya K, Bandhu D, Kumari S, et al. Recent trends in drilling of carbon fiber reinforced polymers (CFRPs): a state-of-the-art review. J Manuf Processes. 2021;69:47–68.
- Tripathi H, Bharti A, Saxena KK, et al. Improvement in mechanical properties of structural AZ91 magnesium alloy processed by friction stir processing. Adv Mater Process Technol. 2021;8:1543–1556.
- Yelamasetti B, Kumar D, Saxena KK, et al. Experimental investigation on temperature profiles and residual stresses in GTAW dissimilar weldments of AA5052 and AA7075. Adv Mater Process Technol. 2021;8:1–14.
- Mishra RS, Ma ZY, Charit I. Friction stir processing: a novel technique for fabrication of surface composite, Mater. Sci Eng A. 2003;341:307–310.
- Balram Yelamasetti P, Naveen K, Venkat RG, et al. Surface modification of aluminum alloy 6061 by embedding B4C particles via friction stir processing, Mater. Res Express. 2022;9:056511.
- Yuvaraj N, Aravindan S, Vipin. Fabrication of Al5083/B4C surface composite by friction stir processing and its tribological characterization. J Mater Res Technol. 2015;4:398–410.
- Gangil N, Maheshwari S, Siddiquee AN. Multipass FSP on AA6063-T6 Al: strategy to fabricate surface composites, mater. Manuf Process. 2018;33:805–811.
- Rejil CM, Dinaharan I, Vijay SJ, et al. Microstructure and sliding wear behavior of AA6360/(TiC+B 4C) hybrid surface composite layer synthesized by friction stir processing on aluminum substrate, mater. Sci Eng A. 2012;552:336–344.
- Soleymani S, Abdollah-Zadeh A, Alidokht SA. Microstructural and tribological properties of Al5083 based surface hybrid composite produced by friction stir processing. Wear. 2012;278-279:278–279.
- Barati M, Abbasi M, Abedini M. The effects of friction stir processing and friction stir vibration processing on mechanical, wear and corrosion characteristics of Al6061/SiO2 surface composite. J Manuf Process. 2019;45:491–497.
- Mabuwa S, Msomi V. Comparative analysis between normal and submerged friction stir processed friction stir welded dissimilar aluminium alloy joints. J Mater Res Technol. 2020;9:9632–9644.
- Paidar M, Oladimeji Ojo O, Reza Ezatpour H, et al. Influence of multi-pass FSP on the microstructure, mechanical properties and tribological characterization of Al/B4C composite fabricated by accumulative roll bonding (ARB. Surf Coat Technol. 2019;361:159–169.
- Paidar M, Bokov D, Mehrez S, et al. Improvement of mechanical and wear behavior by the development of a new tool for the friction stir processing of Mg/B4C composite. Surface and Coatings Technology; 2021p. 426. Doi:10.1016/j.surfcoat.2021.127797.
- Moradi Faradonbeh A, Shamanian M, Edris H, et al. Friction stir welding of Al-B4C composite fabricated by accumulative roll bonding: evaluation of microstructure and mechanical behavior. J Materi Eng and Perform. 2018;27:835–846.
- Alidokht AAZ, Soleymani S, Assadi H. Microstructure and tribological performance of an aluminium alloy based hybrid composite produced by friction stir processing, mater. Des. 2011;32:2727–2733.
- Rahsepar M, Jarahimoghadam H. The influence of multipass friction stir processing on the corrosion behavior and mechanical properties of zircon-reinforced Al metal matrix composites. Mater Sci Eng. 2016;671:214–220.