Tool wear


Tool wear is the gradual failure of cutting tools due to regular operation. Tools affected include tipped tools, tool bits, and drill bits that are used with machine tools.
Types of wear include:

Effects of tool wear

Some general effects of tool wear include:
Reduction in tool wear can be accomplished by using lubricants and coolants while machining. These reduce friction and temperature, thus reducing the tool wear.
A more general form of the equation is
where
At high temperature zones crater wear occurs.
The highest temperature of the tool can exceed 700 °C and occurs at the rake face whereas the lowest temperature can be 500 °C or lower depending on the tool...

Energy considerations

comes in the form of heat from tool friction. It is a reasonable assumption that 80% of energy from cutting is carried away in the chip. If not for this the workpiece and the tool would be much hotter than what is experienced. The tool and the workpiece each carry approximately 10% of the energy. The percent of energy carried away in the chip increases as the speed of the cutting operation increases. This somewhat offsets the tool wear from increased cutting speeds. In fact, if not for the energy taken away in the chip increasing as cutting speed is increased; the tool would wear more quickly than is found.

Multi-criteria of machining operation

and Deviprasad introduced the multi-criteria metal cutting problem where the criteria could be cost per part, production time per part, and quality of surface. Also, Malakooti et al. proposed a method to rank the materials in terms of machinability. Malakooti presents a comprehensive discussion about tool life and its multi-criteria problem. As an example objectives can be minimizing of Total cost, maximizing of Productivity, and maximizing of quality of cutting.