Open AccessTool–Chip Interface Temperature Measurement in Interrupted and Continuous Oblique Cutting
Author(s) -
Sinan Kesriklioglu,
Justin D. Morrow,
Frank E. Pfefferkorn
Publication year - 2017
Publication title -
journal of manufacturing science and engineering
Language(s) - English
Resource type - Journals
eISSN - 1528-8935
pISSN - 1087-1357
DOI - 10.1115/1.4038140
Subject(s) - thermocouple , materials science , tungsten carbide , chip , interface (matter) , rake , temperature measurement , mechanical engineering , composite material , engineering , electrical engineering , physics , capillary number , quantum mechanics , capillary action
The objective of this work is to fabricate instrumented cutting tools with embedded thermocouples to accurately measure the tool–chip interface temperature in interrupted and continuous turning. Thin-film thermocouples were sputtered directly onto the flat rake face of a commercially available tungsten carbide cutting insert using micromachined stencils and the measurement junction was coated with a protective layer to obtain temperature data 1.3 μm below the tool–chip interface. Oblique interrupted cutting tests on AISI 12L14 steel were performed to observe the influence of varying cutting speeds and cooling intervals on tool–chip interface temperature. An additional cutting experiment was conducted to monitor the interface temperature change between interrupted and continuous cuts.
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