Validity Analysis of Generalized Taylor Regression Formula by Tool Wear Test for Difficult-to-Machine Materials

Hong Tao Ye; Yi Wan; Xiao Ping Ren; Zhan Qiang Liu

doi:10.4028/www.scientific.net/KEM.589-590.342

Paper Titles

Study on Wear Mechanism of Carbide Tool in Machining Inconel 718
p.323

Research on the Tools’ Life in the Dynamic Heavy-Duty Cutting Process
p.327

The Research on Cutting Performance of Two Kinds of Ti (C,N)-Based Cermet Cutters
p.332

Effect of Nano-Additives on Microstructure and Mechanical Properties of Ti(C,N)-TiB₂-WC Composite Ceramic Cutting Tool Materials
p.337

Validity Analysis of Generalized Taylor Regression Formula by Tool Wear Test for Difficult-to-Machine Materials
p.342

Study on Helical Groove and Circumferential Cutting Edge Machining Simulation of End Mill
p.351

Establishment of the Low Defect Ceramic Cutting Tool Database
p.357

Wear Behavior of Ti(N,C)-Al₂O₃ Coated Cemented Carbide Tools during Milling Ti₂AlNb-Based Alloy
p.361

Experimental Investigation on Effects of Tool Condition on Processing Quality during Broaching 26NiCrMoV145 Supperalloy
p.366

HomeKey Engineering MaterialsKey Engineering Materials Vols. 589-590Validity Analysis of Generalized Taylor Regression...

Validity Analysis of Generalized Taylor Regression Formula by Tool Wear Test for Difficult-to-Machine Materials

Abstract:

Talyor formula is widely accepted to describe tool wear and is employed to optimize cutting parameters. The common test methods and processes of cutting tool wear test are firstly investigated in this paper. The effects of interference factors on different test methods are analyzed by hypothesis test to find the reason that regression generalized Taylor formula is partly invalid or not effective. The meaning of exponentials in generalized Taylor formula is discussed and tool wear test principle for difficult-to-machine materials is proposed at last.