Affiliation:
1. Harbin University of Science and Technology
2. Tongji University
Abstract
During the process of interrupted cutting, milling insert suffers from periodic thermal
shock. The bad temperature field caused by cutting heat is the direct reason for tool failure. In order
to get more accurate temperature field distribution of milling insert, the experimental research on
temperature field is carried on with the FLIR infrared thermal imager. This paper takes hard cutting
material 3Cr1Mo1/4V as example. Through the contrast experiments, the temperature field
distribution of tool-chip contact area is gained at the moment of milling insert going into or out
from the workpiece, and also the difference of failure modes among different milling inserts is
revealed. The experimental analysis results show that more accurate distribution of temperature
field will be obtained when we apply the infrared thermal imager to observe temperature field
during interrupted cutting process. Optimization design for groove of milling insert also can be
based on those results.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
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