A fracture mechanics approach to the prediction of tool wear in dry high speed machining of aluminum cast alloys-part 2: Model calibration and verification

American Society of Mechanical Engineers, Tribology Division, TRIB

Volumn , Issue 16, 2005, Pages 173-179

  Bardetsky, Alexander ^a   Elbestawi, Mohamed ^a,b   Attia, Helmi ^a,b,c  

^a MCMASTER UNIVERSITY   (Canada)

^b ASME

^c NATIONAL RESEARCH COUNCIL CANADA   (Canada)

Author keywords

Al Si Alloys; Fracture Mechanics Modeling; High Speed Machining; Tool Wear

Indexed keywords

AL-SI ALLOYS; FRACTURE MECHANICS MODELING; HIGH SPEED MACHINING; OBJECT ORIENTED FINITE ELEMENT (OOFE); TOOL WEARS;

ALUMINUM CASTINGS; AUTOMOTIVE INDUSTRY; CALIBRATION; CRACK PROPAGATION; MACHINING; MATHEMATICAL MODELS; WEAR OF MATERIALS;

FRACTURE MECHANICS;

EID: 33646674701     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1115/IMECE2005-80640     Document Type: Conference Paper

References (5)

1. Bardetsky, A., Attia, H., Elbestawi, M., 2005, "A Fracture Mechanics Approach to the Prediction of Tool Wear in Dry High Speed Machining of Aluminum Cast Alloys, Part 1: Model Development," accepted for publication in the Proceedings of IMECE 2005, Orlando, Florida.
2. Waldorf, D.J., Kapoor, S.G., De Vor, R.E., 1992, "Automatic Recognition of Tool Wear on a Face Mill using a Mechanistic Modeling Approach," Wear 157, pp. 305-323.
3. Teitenberg, T.M., Bayomi, A.E., Yucesan, G., 1992, "Tool Wear Modeling Through an Analytic Mechanistic Model of Milling Process," Wear, 1954, pp. 287-304.
4. Montgomery, D.C., 1996, Design and Analysis of Experiments, John Wiley & Sons Publisher, New York.
5. Egorov, A.E., Azarov, G.N, Koval, A.B., 1986, Analysis of Industrial Automation Systems by Experimental Design, Kharkov University Press, Kharkov, USSR