Effect of externally applied magnetic field on the tool wear and surface morphology of Inconel 718 in turning operation

Sukhdev B. Waghmode; Anupama N. Kallol; S. Shivakumar; G. A. Manjunath; Rajendra L. Doiphode; A. Chandrashekar; B. Omprakash; Abdul Razak; Nasim Hasan

doi:10.1002/eng2.12700

Engineering Reports (Jan 2024)

Effect of externally applied magnetic field on the tool wear and surface morphology of Inconel 718 in turning operation

Sukhdev B. Waghmode,
Anupama N. Kallol,
S. Shivakumar,
G. A. Manjunath,
Rajendra L. Doiphode,
A. Chandrashekar,
B. Omprakash,
Abdul Razak,
Nasim Hasan

Affiliations

Sukhdev B. Waghmode: Department of Mechanical Engineering K. L. S. Gogte Institute of Technology Belagavi India
Anupama N. Kallol: Department of Mechanical Engineering K. L. S. Gogte Institute of Technology Belagavi India
S. Shivakumar: Department of Mechanical Engineering K. L. S. Gogte Institute of Technology Belagavi India
G. A. Manjunath: Department of Mechanical Engineering K. L. S. Gogte Institute of Technology Belagavi India
Rajendra L. Doiphode: Department of Mechanical Engineering Government Polytechnic Kolhapur India
A. Chandrashekar: Department of Mechanical Engineering Bangalore Institute of Technology Bengaluru India
B. Omprakash: Department of Mechanical Engineering JNTUA College of Ananthapuram Anantapur India
Abdul Razak: Department of Mechanical Engineering, P. A. College of Engineering Affiliated to Visvesvaraya Technological University Belagavi India
Nasim Hasan: Mechanical Engineering Department Mattu University Mettu Oromia Ethiopia

DOI: https://doi.org/10.1002/eng2.12700
Journal volume & issue: Vol. 6, no. 1
pp. n/a – n/a

Abstract

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Abstract This study examined the effect of magnetic field with single point coated‐carbide tool during turning process of Inconel718 (In718). After the turning process, tribological properties (surface roughness and tool wear) and chip morphology were analyzed. Two cylindrical Neodymium (N52) grade permanent magnets are used to apply the magnetic field during the machining. Cutting speed and magnetic field intensity along with constant feed and depth of cut are used to analyze tribological properties along with chip morphology. Experimental results show that 80 m/min cutting speed and 426 Gauss magnetic field has the best results in term of lowest surface roughness and tool wear. Lorentz forces developed due to the applied external magnetic field help to improve surface roughness compared to nonmagnetic field machining. Developed fine particles during the turning process get repulsed in case of magnetic field machining which helps to improve tool wear.

Published in Engineering Reports

ISSN: 2577-8196 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Engineering (General). Civil engineering (General); Science: Mathematics: Instruments and machines: Electronic computers. Computer science
Website: https://onlinelibrary.wiley.com/journal/25778196

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