Cemented Carbide End-Mill Edge Preparation Using Dry-Electropolishing

Cemented Carbide End-Mill Edge Preparation Using Dry-Electropolishing

Precision edge preparation techniques for cemented carbides enable optimization of the geometry of tools’ cutting edges. These techniques are frequently used in high-stress environments, resulting in substantial improvements in tools’ cutting performance. This investigation examined the impact and e...

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Veröffentlicht in:Journal of Manufacturing and Materials Processing 2024-02, Vol.8 (1), p.28
Hauptverfasser: Riu-Perdrix, Guiomar, Valencia-Cadena, Andrea, Llanes, Luis, Roa, Joan Josep
Format: Artikel
Sprache:eng
Schlagworte:
Burrs
Carbide tools
Carbides
cemented carbide
Cemented carbides
Chipping
Collisions (Nuclear physics)
Composite materials
Cutting edge radius
Cutting tools
dry-electropolishing process
edge preparation
Electrolytes
end-mill
Finishing
Geometry
Investigations
Parameters
Residual stress
Scanning electron microscopy
Sintering
Stress concentration
Surface roughness
Trends
Tungsten alloys
WC-Co
Wear resistance
Working conditions
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Zusammenfassung:Precision edge preparation techniques for cemented carbides enable optimization of the geometry of tools’ cutting edges. These techniques are frequently used in high-stress environments, resulting in substantial improvements in tools’ cutting performance. This investigation examined the impact and evolution of cutting edge parameters and resulting surface finishes as a function of dry-electropolishing time on an end-mill. Findings demonstrate enlargement of the cutting edge radius, a decrease in surface roughness, and the mitigation of defects induced during previous manufacturing stages (i.e., smashed ceramic particles, burrs, chipping, etc.). Additionally, a direct correlation between dry-electropolishing time and primary cutting edges’ micro-geometry parameters has been established.
ISSN:2504-4494
2504-4494
DOI:10.3390/jmmp8010028