Research on Heating Density Function of Milling Insert with 3D Complex Groove

Ming Yang Wu; Qing Xin Meng; Guang Yu Tan; Qiang Liu

doi:10.4028/www.scientific.net/KEM.375-376.241

Paper Titles

Theoretical and Experimental Research on Tapping of GH4169 and TC4 with Modified-Tooth Taps
p.221

Theoretical Research on Tooth Profile Modification with Electroplated CBN Hard Honing Wheels
p.226

Experimental Investigation on Cutting Force and Tool Wear of Carbide Tools in Ti6Al4V Turning
p.231

Influence of Drill Geometry in Drilling Carbon Fiber Reinforced Plastics
p.236

Research on Heating Density Function of Milling Insert with 3D Complex Groove
p.241

Experiment Study of Combining Micro EDM with USM
p.248

Experimental Research on Microelectroforming with Ultrasonic Agitation
p.253

Research on the Force Characteristics in Ultrasonic Grinding Nano-Zirconia Ceramics
p.258

Material Removal Rate Characteristics in Ultrasonic Aided Lapping of Engineering Ceramics Based on Single-Point Scratch
p.263

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Research on Heating Density Function of Milling Insert with 3D Complex Groove

Abstract:

In order to figure out the temperature anywhere and anytime in the milling insert, based on the point heat source, and grounded on the experimental data, we established the mathematics model of heat density function and temperature field for milling insert with 3D complex groove under the irregular heat source, and has proved correctly to its special case with this mathematics model, thus established the theoretical foundation for groove optimizing and reconstruction of milling insert with 3D complex groove.