2019
DOI: 10.1016/j.procir.2019.09.042
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Influence of cutting edge radius on process forces in orthogonal machining of carbon fibre reinforced plastics (CFRP)

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Cited by 22 publications
(6 citation statements)
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“…where n is strain hardening exponent, ρw is cutter material density, Cp-w and Tm are the specific heat and melting point respectively of the abrasive and C is constant which has a value of about 0.5 for many typical metals, as reported by [41]. The drag finishing is a typical equipment for preparing the cutting edge of round bar tools and workpiece polishing as reported by [42]- [43]. The complexity of solid particle abrasion relies on its rotational movement in fixed barrel and the material removal depends on normal and oblique action.…”
Section: Analysis Of Abrasion Mechanismmentioning
confidence: 99%
See 1 more Smart Citation
“…where n is strain hardening exponent, ρw is cutter material density, Cp-w and Tm are the specific heat and melting point respectively of the abrasive and C is constant which has a value of about 0.5 for many typical metals, as reported by [41]. The drag finishing is a typical equipment for preparing the cutting edge of round bar tools and workpiece polishing as reported by [42]- [43]. The complexity of solid particle abrasion relies on its rotational movement in fixed barrel and the material removal depends on normal and oblique action.…”
Section: Analysis Of Abrasion Mechanismmentioning
confidence: 99%
“…Ar represents the nominal initial radius rs transform final radius rβ formed to remove the area of material. Considering the quantification of the cutting edge preparation process, an expression to determine the nominal removal area of the material is proposed by [43]. For this expression, the change of radius (from rs to and the wedge angle β are considered.…”
Section: Materials Removal Rate (Mrr)mentioning
confidence: 99%
“…Tool wear mainly occurs at the cutting edge of the cutting tool due to abrasive characteristics of the carbon fibers. Increasing cutting edge radius leads to delamination and fiber protrusion [11]. Diamond or PCD coatings can reduce wear but also raise initial cutting edge rounding [12].…”
Section: Machiningmentioning
confidence: 99%
“…If the process parameters (cutting speed and depth) are kept constant, the friction coefficient will depend highly on the rake angle of the tool. Nevertheless, the fact that the cutting tools have a rounded edge cannot be ignored for machining of fiber composites because this geometrical parameter has a significant impact of the cutting behavior of fibers [10,39,40], especially when machining natural fiber composites that are highly sensitive to the small variations of the cutting edge radius [10]. In the following, the cutting friction is discussed by considering the rounded cutting edge.…”
Section: Friction Modelingmentioning
confidence: 99%