Abstract

Sharp tools have different cutting characteristics from dull or worn tools. Among these differences is that a wear land develops on the cutting tool so that more of the cutting tool comes into contact with the workpiece during the cutting process. The increased contact area between the tool and workpiece forces more energy to be consumed by the cutting machine in making a cut because more energy is expended in non-productive work. Indications of an increase in non-productive work are the increased power or force necessary to operate a spindle in lathes, milling machines, etc., and the increased energy in cutting vibrations in a low frequency range emitted during the cutting process. Another indication of decreased efficiency of the cutting process is the decreased energy in cutting vibrations in a high frequency range emitted during the cutting process. A method and apparatus are described for continuously monitoring a ratio of spindle force or power or low frequency vibration energy to high frequency vibration energy during the cutting process, and generating an output warning signal when the radio reaches a preselected level correlated with excessive tool wear.

Other References

• K J. Kim et al, "Progressive Tool Wear Sensing in Turning Operations Via Acoustic Emission Signal Processing", Integrated and Intelligent Manufacturing, American Society of Mechanical Engineers, pp. 297-307, (Dec. 1986)
• A. Del Taglia et al., "An Approach to On-Line Measurement of Tool Wear by Spectrum Analysis", pp. 141-148, Unknown publisher, Unknown date