Title :
A Prediction Model Approach of Tool Wear for Turning Hastelloy X Alloy Using Genetic Algorithm Toolbox
Author :
Chao, Yu ; Yanli, Zhang ; Jianye, Guo ; Jingkui, Li
Author_Institution :
Sch. of Mech. & Electr. Eng., Shenyang Aerosp. Univ., Shenyang, China
Abstract :
Referring to the Taylor formula, a regression model of VBmax (maximum width of the flank wear land in the central portion of the active cutting edge) is assigned for the exponential form. Turning Hastelloy X alloy experiments was designed based on the quadratic rotary combination design technique. By identifying regression coefficient using genetic algorithm toolbox in MALAB7.1, a tool wear prediction model was obtained. The rule that the prediction model reflects is identical with not only visual analyses result of experiment data but also tradition basic cutting theory, in addition the residual error is smaller, all these explain that this prediction model was well fitted.
Keywords :
genetic algorithms; iron alloys; machine tools; metallurgical industries; molybdenum alloys; nickel alloys; prediction theory; production engineering computing; regression analysis; turning (machining); wear; FeCrNiCoMoWCu; Hastelloy X alloy experiment; MATLAB 7.1; Taylor formula; VBmax model; active cutting edge; cutting theory; flank wear land; genetic algorithm toolbox; prediction model; prediction model approach; quadratic rotary combination design technique; regression model; residual error; tool wear prediction model; Data models; Equations; Fitting; Genetic algorithms; Mathematical model; Metals; Predictive models; Hastelloy X alloy; genetic algorithm; prediction model; tool wear;
Conference_Titel :
Intelligent System Design and Engineering Application (ISDEA), 2010 International Conference on
Conference_Location :
Changsha
Print_ISBN :
978-1-4244-8333-4
DOI :
10.1109/ISDEA.2010.245
