Physical Field Evaluation Model of High Speed Ball-End Milling Hardened Steel

Bin Jiang; D.H. Xia; Min Li Zheng; Y. Li; X.C. Liu

doi:10.4028/www.scientific.net/AMR.426.122

Paper Titles

Microstructure and Stress Variation of Semisolid 7A04 Alloy during Isothermal Compression
p.101

Modeling Growth Ring Mechanical Properties of Coniferous Wood Based on FEM
p.106

Optimal Design Study on the Radian and Length of the Guide Plates for the Pipeline Elbow
p.112

Performance of Alloyed CVD-Coated and PVD-Coated Carbide Tools in Dry Machining Nickel Based Alloy Inconel718
p.118

Physical Field Evaluation Model of High Speed Ball-End Milling Hardened Steel
p.122

Research of Detection and Control System for Lunar Dust Effects Simulator
p.126

Research on Electrolysis Manganese Negative Plate Straighten Based on Image Processing
p.131

Research on the Nano-Hardness of Single Crystal Aluminum
p.135

Selection of Minimum Quantity Lubrication (MQL) Parameters in Milling of Ti-6Al-4V
p.139

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 426Physical Field Evaluation Model of High Speed...

Physical Field Evaluation Model of High Speed Ball-End Milling Hardened Steel

Abstract:

Based on the experiment of high speed ball-end milling hardened steel, investigated the distribution characteristics of cutting force and cutting heat and wearing character of cutter, and set up analysis model of cutter physical field. Using failure criterion and safety margin of cutter, founded physical field evaluation model of high speed ball-end milling cutter. By means of physical field analysis and experiment, explored the influence of cutting parameters on cutting property during cutter wear. Results indicate that the method of safety margin and physical field evaluation model can evaluate cutting property of cutter effectively, the impact of feed per tooth on physical field and safety margin is noticeable, and high speed and small feed are helpful to improve safety margin and cutting performance of cutter.