Turning particulate metal matrix composites: Experimental study of the evolution of the cutting forces,tool wear and workpiece surface roughness with the cutting time

Abstract

This paper presents an experimental study of the evolution of the cutting forces, tool wear and surface roughness during the turning of the particulate metal matrix composite A356/20/SiCp-T6. The experimental work was developed through the continuous measurement of the cutting forces with an appropriate piezoelectric dynamometer. The wear type was identified and its evolution with cutting time was measured. Inserts with polycrystalline diamond (PCD) were tested. The surface roughness was evaluated with a profilometer.

Keywords

turning particulate metal matrix composites polycrystalline diamond tool wear cutting forces surface roughness

References

Taya

Arsenault

Metal Matrix Composites, 1989, pp. 1–9 (Pergamon Press).

Clyne

Withers

An introduction to metal matrix composites. Camb. Solid State Sci. Ser., 1995, 1–10.

Chadwick

G. A.

Heat

Machining metal matrix composites. Metal and Mater., 1990, 6, 73–76.

Tomac

Tnnessen

Machinability of particulate aluminium matrix composites. Ann. CIRP, 1992, 41, 55–58.

Lane

The effect of different reinforcement on PCD tool life for aluminium composites. In Proceedings of Machining of Composite Materials Symposium, ASM Materials Week, Chicago, Illinois, 1992, pp. 3–15.

El-Gallab

Sklab

Machining of Al/SiC particulate metal-matrix composites. Part I: Tool performance. J. Mater. Processing Technol., 1998, 83, 151–158.

El-Gallab

Sklab

Machining of Al/SiC particulate metal-matrix composites. Part II: Workpiece surface integrity. J. Mater. Processing Technol., 1998, 83, 277–285.

Lin

J. T.

Bhattacharyya

Lane

Machinability of silicon carbide reinforced aluminium metal matrix composite. Wear, 1995, 883–888.

Baptista

A. M.

Davim

J. P.

Wear of tooling materials when turning and drilling aluminium matrix composites. In Wear of Material's 97, San Diego, USA, 1997, Poster.