2022
DOI: 10.1007/s00170-022-09326-6
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Tool wear, 3D surface topography, and comparative analysis of GRA, MOORA, DEAR, and WASPAS optimization techniques in turning of cold work tool steel

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Cited by 11 publications
(6 citation statements)
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“…The higher ( f ), the deeper and wider these grooves. A similar explanation is proposed by Safi et al 49 On the other hand, ( Ra ) decreases with the increase of ( Vc ), and it also increases slightly with the increase of ( ap ). Also, ( Ra ) varies according to the nature of the cutting material grades.…”
Section: Resultssupporting
confidence: 84%
“…The higher ( f ), the deeper and wider these grooves. A similar explanation is proposed by Safi et al 49 On the other hand, ( Ra ) decreases with the increase of ( Vc ), and it also increases slightly with the increase of ( ap ). Also, ( Ra ) varies according to the nature of the cutting material grades.…”
Section: Resultssupporting
confidence: 84%
“…The ANOVA of (VB) shows that the factors (Vc) and (f) have the greatest influence on (VB) with cont% of 66.44% and 25.95%, respectively, because, in addition to the increase in temperature in the cutting zone, the increase in friction promotes wear by abrasion, as shown in Figure 3 by the streaks on the strip of flank wear, while the factors (r) and (ap) are insignificant with P-values of 0.565 and 0.083. These results are in perfect agreement with those of [22]. 3).…”
Section: Anova For (Ra T° and Vb)supporting
confidence: 92%
“…Safi et al. used a self-developed tool dynanometer for measuring high frequency cutting force to evaluate the cutting force in micro milling 6061-T6 aluminum alloy (Bataineh and Dalalah, 2010), with focus on the cutting force signal and micro cutting force variations under different cutting speeds (Huang et al., 2020; Safi et al., 2022). Wang et al.…”
Section: Introductionmentioning
confidence: 99%
“…They analyzed the effect of cutting parameters on cutting force, chip geometry, surface roughness, and mean friction coefficient in orthogonal micro and nano-scale cutting of 7075-T6 aluminum alloy (Santos et al, 2015;, and compared with trends observed in conventional macro-scale cutting. Safi et al used a self-developed tool dynanometer for measuring high frequency cutting force to evaluate the cutting force in micro milling 6061-T6 aluminum alloy (Bataineh and Dalalah, 2010), with focus on the cutting force signal and micro cutting force variations under different cutting speeds (Huang et al, 2020;Safi et al, 2022). Wang et al (2021) used a selfdeveloped ceramic micro milling cutter to examine the micro machinability of 2024 aluminum alloy, considering the machining channel burrs, dimensional accuracy, tool wear, and chip geometry under different cutting parameters (Kuramoto et al, 2014;Zargar et al, 2012;.…”
mentioning
confidence: 99%