Application of Tool Compensation in CNC Machining

Lian Jun Zhang; Chun Li He; Guang Jun Chen

doi:10.4028/www.scientific.net/MSF.800-801.435

Paper Titles

Modal Analysis of High-Speed Face Milling System Based on Composite Structure System Analysis Method
p.408

Determination of Capto C5 Shank’s Key Dimensions
p.417

Edge Preparation on Cutting Force, Cutting Temperature and Tool Wear for Hard Turning
p.424

Mechanical Properties and Microstructure of TiN-TiB₂ Composite Ceramic Cutting Tool Material
p.430

Application of Tool Compensation in CNC Machining
p.435

Investigation on Performance of a CVD Coated Carbide Tool in Face Milling of Ultra-High Strength Steel 30Cr3SiNiMoVA
p.440

Tool Wear Identification in Turning Titanium Alloy Based on SVM
p.446

Cutting Performance of Diamond Coated, TiAlN Coated and Carbide Cutting Tools in High Speed Milling Graphite
p.451

Experimental Research on the Selection of Tool Material in Turning Superalloy GH4169
p.460

HomeMaterials Science ForumMaterials Science Forum Vols. 800-801Application of Tool Compensation in CNC Machining

Application of Tool Compensation in CNC Machining

Abstract:

Tool compensation determines the machining precision and quality . There are tool length compensation,tool radius compensation and corner radius compensation in CNC system .The parameters of these compensation are all static.The purpose of this study was that the machining precision and quality were improved by changing the parameters of tool compensation,based upon changing the static parameters into the dynamic parameters of tool compensation.The three tool compensations were introduced and discussed about these being used in machining process and the function in processing.The concept of dynamic tool compensation was proposed in this paper. The method was used that the dynamic parameter substituted the static parameter in the processing by calculating . The process machining crafts information was included in tool compensation in every process step. The computer program was finished about how to calculate the dynamic parameter. The results indicate that high-precision machining is within the range of the maximum probability and the large machining error is within the range of the minimum probability by useing this method. Further more, the end qualified product is more than before.Process indicators and tool compensation merged is a breakthrough research by probability calculating for impoving the machining precision.We confirmed that the proposed method could be l used widely.