Influence of cutting insert (uncoated and coated carbide) on cutting force, tool-tip temperature, and chip morphology during dry machining of Inconel 825

• Published in: Materials today : proceedings Vol. 38; pp. 2664 - 2670
• Main Authors: Behera, Gobinda Chandra, Thrinadh, Jadam, Datta, Saurav
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.01.2021
• Subjects: Chip morphology; Dry machining; Inconel 825; Superalloy; Inconel 825; Superalloy; Chip morphology; Dry machining
• ISSN: 2214-7853; 2214-7853
• DOI: 10.1016/j.matpr.2020.08.332

During metal machining, tool material (substrate as well as coating) plays an important role to influence machinability of any work material. Dry machining performance of ‘difficult-to-cut’ aerospace superalloy Inconel 825 is studied herein. Machining experiments are conducted at different cutting speeds using uncoated carbide, and MT-CVD TiCN-Al2O3 coated carbide inserts. Machining performance is assessed in purview of magnitude of cutting force, approximate tool-tip temperature, and quantitative chip morphological parameters. Performance of coated tool is compared to that of uncoated insert. It is estimated that coated tool causes 39.79% reduction in tangential cutting force (at cutting velocity ∼121 m/min) when compared to uncoated counterpart. Higher tool-tip temperature of the coated insert caused higher chip curling. Shear band microhardness of chip (obtained by using coated tool) appear higher than that of uncoated insert.