Numerical Investigation Into Convective Heat Transfer Coefficient of the Grinding Fluid Used in a Deep Grinding Process

Gupta, Puneet Kumar; Yadav, N.P.

doi:10.21278/TOF.482056023

Transactions of FAMENA, Vol. 48 No. 2, 2024.

Original scientific paper

https://doi.org/10.21278/TOF.482056023

Numerical Investigation Into Convective Heat Transfer Coefficient of the Grinding Fluid Used in a Deep Grinding Process

Puneet Kumar Gupta ; Department of Mechanical Engineering, BIET, Jhansi, India
N.P. Yadav ; Department of Mechanical Engineering, BIET, Jhansi, India

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page 129-144

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APA 6th Edition

Gupta, P.K. & Yadav, N.P. (2024). Numerical Investigation Into Convective Heat Transfer Coefficient of the Grinding Fluid Used in a Deep Grinding Process. Transactions of FAMENA, 48 (2), 129-144. https://doi.org/10.21278/TOF.482056023

MLA 8th Edition

Gupta, Puneet Kumar and N.P. Yadav. "Numerical Investigation Into Convective Heat Transfer Coefficient of the Grinding Fluid Used in a Deep Grinding Process." Transactions of FAMENA, vol. 48, no. 2, 2024, pp. 129-144. https://doi.org/10.21278/TOF.482056023. Accessed 22 May 2024.

Chicago 17th Edition

Gupta, Puneet Kumar and N.P. Yadav. "Numerical Investigation Into Convective Heat Transfer Coefficient of the Grinding Fluid Used in a Deep Grinding Process." Transactions of FAMENA 48, no. 2 (2024): 129-144. https://doi.org/10.21278/TOF.482056023

Harvard

Gupta, P.K., and Yadav, N.P. (2024). 'Numerical Investigation Into Convective Heat Transfer Coefficient of the Grinding Fluid Used in a Deep Grinding Process', Transactions of FAMENA, 48(2), pp. 129-144. https://doi.org/10.21278/TOF.482056023

Vancouver

Gupta PK, Yadav NP. Numerical Investigation Into Convective Heat Transfer Coefficient of the Grinding Fluid Used in a Deep Grinding Process. Transactions of FAMENA [Internet]. 2024 [cited 2024 May 22];48(2):129-144. https://doi.org/10.21278/TOF.482056023

IEEE

P.K. Gupta and N.P. Yadav, "Numerical Investigation Into Convective Heat Transfer Coefficient of the Grinding Fluid Used in a Deep Grinding Process", Transactions of FAMENA, vol.48, no. 2, pp. 129-144, 2024. [Online]. https://doi.org/10.21278/TOF.482056023

Abstract

This paper presents a mathematical modelling approach to an investigation into the grinding temperature and the convective heat transfer coefficient of the grinding fluid using the computational fluid dynamics approach. The maximum grinding temperature varies from 325 K to 370 K as the grinding depth increases from 0.50 mm to 1.10 mm at 60 m/s wheel velocity for water as a grinding fluid and 419 K to 619 K for kerosene oil as a grinding fluid. The convective heat transfer coefficient depends on the density, specific heat, conductivity, and viscosity of the grinding fluid. It is observed that the value of the convective heat transfer coefficient increases with an increase in density, specific heat, and conductivity of the grinding fluid and decreases with an increase in viscosity of the grinding fluid. The convective heat transfer coefficient for water and kerosene oil is 137,730 W/m2-K and 23,512 W/m2-K, respectively, at a 76 m/s wheel velocity and 0.50 mm depth of cut.

Keywords

computational fluid dynamics (CFD); grinding temperature; convective heat transfer coefficient; grinding fluid properties

Hrčak ID:

316422

URI

https://hrcak.srce.hr/316422

Publication date:

25.2.2024.

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Transactions of FAMENA, Vol. 48 No. 2, 2024.

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