Title :
A machine learning approach to tool wear behavior operational zones
Author :
Lever, Paul J A ; Marefat, Michael M. ; Ruwani, Tanti
Author_Institution :
Dept. of Min. & Geol. Eng., Arizona Univ., Tucson, AZ, USA
Abstract :
The range of permitted temperature and stress produced during a machining process is related to the metallurgical properties for each tool material and can be empirically determined. For each combination of tool and workpiece material, particular constants are approximated to prescribe the relationship between the temperature-stress combination and the feed rate-speed combination. Using this concept, an operational zone for each tool-workpiece combination can be defined. This paper proposes a machine learning algorithm to determine this operational zone. Instead of relying totally on empirical testing, a learning algorithm is used to incrementally define the operational zone with the related parameters described above. Once determined, the operational zone is then used to enhance machining control
Keywords :
knowledge representation; learning (artificial intelligence); machine tools; machining; process control; wear; feed rate-speed combination; learning algorithm; machine learning approach; machining process control; metallurgical properties; temperature-stress combination; tool material; tool wear behavior operational zones; workpiece material; Automatic generation control; Industrial control; Intelligent sensors; Learning systems; Machine learning; Machine learning algorithms; Machining; Parameter estimation; Sensor systems; Temperature distribution;
Journal_Title :
Industry Applications, IEEE Transactions on
