Modeling and analysis of coated tool temperature variation in dry milling of Inconel 718 turbine blade considering flank wear effect

Article ID	Journal	Published Year	Pages	File Type
10416701	Journal of Materials Processing Technology	2014	17 Pages	PDF

Abstract

- A thermal model of worn coated tool considering the flank wear effect is presented.
- Heat fluxes into the tool from the rake face and due to flank wear are estimated.
- A key global heat transfer coefficient is assessed through an inverse procedure.
- The sensitivity of tool temperature rise to tool wear volume and feed rate varies.
- The feed rate scheduling considering the influence of tool wear is suggested.

Keywords

Heat flux Heat transfer coefficient Tool flank wear feed rate

Related Topics

Physical Sciences and Engineering Engineering Industrial and Manufacturing Engineering

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Modeling and analysis of coated tool temperature variation in dry milling of Inconel 718 turbine blade considering flank wear effect

Authors

Sijie Yan, Dahu Zhu, Kejia Zhuang, Xiaoming Zhang, Han Ding,