Nihon Kikai Gakkai ronbunshu (Dec 2023)

Effect of friction properties of TiN and CrN coated tool edges on cutting ability of austenitic spheroidal graphite cast Iron containing 35% Nickel

  • Takeru SATO,
  • Tsunehisa SUZUKI,
  • Tatsuya FUJII,
  • Mitsuyoshi NOMURA,
  • Hiroshi SAITO,
  • Takashi YAMAKAWA,
  • Yuki SHISHIKURA,
  • Tomoya SAKAI

DOI
https://doi.org/10.1299/transjsme.23-00161
Journal volume & issue
Vol. 89, no. 928
pp. 23-00161 – 23-00161

Abstract

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The purpose of this paper is to examine which coating material on tool edges is best for cutting spheroidal graphite cast iron containing 35% Nickel (Ni) and to understand the relation between friction properties of the coatings and cutting ability. Heat-resistant alloy materials, such as Ni-based alloy steels and Ni-based alloy cast irons containing a large amount of Ni, are known as difficult-to-cut materials due to high high-temperature strength, low thermal conductivity, and work hardening. In this study, austenitic spheroidal graphite cast iron containing 35% Nickel (FCDA-Ni35) was used as a work material, and shaper machining tests were performed for evaluating cutting abilities of TiN and CrN-coated tools. Furthermore, the friction properties of each coating were compared and evaluated by a ball-on-plate test. It was found that the ploughing force component of the CrN-coat was smaller, and the chip thickness was thinner than that of the TiN-coat, so the cutting ability was good. As a result, the CrN-coated tool has smaller cutting resistance and ploughing force component than the TiN-coated tool, and the friction coefficient of the rake face is smaller. Furthermore, the CrN-coated tool has stable chip formation, thin chip thickness, and good cutting ability on cutting for FCDA-Ni35.

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