Analysis of the Surface Quality Characteristics in Hard Turning Under a Minimal Cutting Fluid Environment

Analysis of the Surface Quality Characteristics in Hard Turning Under a Minimal Cutting Fluid Environment

This paper analyzes the surface quality characteristics, such as arithmetic average roughness (Ra), maximum peak-to-valley height (Rt), and average peak-to-valley height (Rz), in hard turning of AISI 52100 steel using a (TiN/TiCN/Al<sub>2</sub>O<sub>3</sub>) coated carbide in...

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Bibliographic Details
Main Authors: Sandip Mane, Rajkumar Bhimgonda Patil, Anindita Roy, Pritesh Shah, Ravi Sekhar
Format: Article
Language:English
Published: MDPI AG 2025-01-01
Series:Applied Mechanics
Subjects:
hard turning
minimal quantity lubrication
minimal cutting fluid application
response surface methodology
surface roughness
Online Access:https://www.mdpi.com/2673-3161/6/1/5
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Summary:This paper analyzes the surface quality characteristics, such as arithmetic average roughness (Ra), maximum peak-to-valley height (Rt), and average peak-to-valley height (Rz), in hard turning of AISI 52100 steel using a (TiN/TiCN/Al<sub>2</sub>O<sub>3</sub>) coated carbide insert under a minimal cutting fluid environment (MCFA). MCFA, a sustainable high-velocity pulsed jet technique, reduces harmful effects on human health and the environment while improving machining performance. Taguchi’s L27 orthogonal array was used to conduct the experiments. The findings showed that surface roughness increases with feed rate, identified as the most influential parameter, while the depth of cut shows a negligible effect. The main effects plot of signal-to-noise (S/N) ratios for the combined response of Ra, Rt, and Rz revealed the optimal cutting conditions: cutting speed of 140 m/min, feed rate of 0.05 mm/rev, and depth of cut of 0.3 mm. Feed rate ranked highest in influence, followed by cutting speed and depth of cut. The lower values of surface roughness parameters were observed in the ranges of Ra ≈ 0.248–0.309 µm, Rt ≈ 2.013–2.186 µm, and Rz ≈ 1.566 µm at a feed rate of 0.05–0.07 mm/rev. MCFA-assisted hard turning reduces surface roughness by 35–40% compared to dry hard turning and 10% to 24% when compared to the MQL technique. Moreover, this study emphasizes the significant environmental benefits of MCFA, as it incorporates minimal eco-friendly cutting fluids that minimize ecological impact while enhancing surface finish.
ISSN:2673-3161

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