2021
DOI: 10.1016/j.surfcoat.2021.127797
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Improvement of mechanical and wear behavior by the development of a new tool for the friction stir processing of Mg/B4C composite

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Cited by 52 publications
(8 citation statements)
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“…These dislocations further restraint the plastic deformation and enhance yield strength and microhardness as well as ensuing work hardening of the PZ. Apart from these mechanisms, with higher grain boundary area envisaged through FSP led refined grains further interrupts the dislocation movement and thereby enhances the microhardness [61]. Like other parameters, FSP at 5 mm s −1 shows an increase of microhardness from the PM, which appears to have a relationship with the amount of "stirring".…”
Section: Microhardnessmentioning
confidence: 91%
“…These dislocations further restraint the plastic deformation and enhance yield strength and microhardness as well as ensuing work hardening of the PZ. Apart from these mechanisms, with higher grain boundary area envisaged through FSP led refined grains further interrupts the dislocation movement and thereby enhances the microhardness [61]. Like other parameters, FSP at 5 mm s −1 shows an increase of microhardness from the PM, which appears to have a relationship with the amount of "stirring".…”
Section: Microhardnessmentioning
confidence: 91%
“…A refined microstructure, without cracks and a high amount of H/E in the MT2 specimen, is the most important reason for the formation of shallow and partial scratches on the worn surface. In a study, Paidar et al [44] reported the formation of equiaxed grains in the coating as the cause of the increased wear resistance due to stronger atomic bonding. Similar results were also reported by Wang et al [45].…”
Section: Wearmentioning
confidence: 99%
“…Helicopter transmission casings and gearboxes [128] Combined powder metallurgy and hot extrusion process…”
Section: Latest Trends In Manufacturing Of Non Ferrous Compositesmentioning
confidence: 99%