A Study for the Nanofinishing of an EN-31 Workpiece with Pulse DC Power Supply Using Ball-End Magnetorheological Finishing

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SINGH, Himmat ;NIRANJAN, Mahendra Singh;WATTAL, Reeta .
A Study for the Nanofinishing of an EN-31 Workpiece with Pulse DC Power Supply Using Ball-End Magnetorheological Finishing. 
Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 66, n.7-8, p. 449-457, july 2020. 
ISSN 0039-2480.
Available at: <https://www.sv-jme.eu/article/a-study-for-nanofinishing-of-en-31-work-piece-with-pulse-dc-power-supply-using-ball-end-magnetorheological-finishing/>. Date accessed: 01 dec. 2021. 
doi:http://dx.doi.org/10.5545/sv-jme.2020.6681.
Singh, H., Niranjan, M., & Wattal, R.
(2020).
A Study for the Nanofinishing of an EN-31 Workpiece with Pulse DC Power Supply Using Ball-End Magnetorheological Finishing.
Strojniški vestnik - Journal of Mechanical Engineering, 66(7-8), 449-457.
doi:http://dx.doi.org/10.5545/sv-jme.2020.6681
@article{sv-jmesv-jme.2020.6681,
	author = {Himmat  Singh and Mahendra Singh Niranjan and Reeta  Wattal},
	title = {A Study for the Nanofinishing of an EN-31 Workpiece with Pulse DC Power Supply Using Ball-End Magnetorheological Finishing},
	journal = {Strojniški vestnik - Journal of Mechanical Engineering},
	volume = {66},
	number = {7-8},
	year = {2020},
	keywords = {BEMRF; pulse DC power supply; duty cycle; %∆Ra},
	abstract = {Ball-end magnetorheological finishing (BEMRF) is a high-level nanofinishing process used in finishing different kinds of surfaces including flat, 2- and 3-dimensional, and curved surfaces. In the present study, a pulse DC power supply is used to energize the electromagnet of magnetorheological (MR) finishing tool. The experiments have been conducted on EN-31 flat workpiece surface with and without pulse DC power supply using a magnetizing current (MC) 2.5 A, a working gap (WG) of 1.5 mm and a rotational speed of the tool (RST) of 500 rpm with a feed rate of workpiece of 50 mm/min. The study has been carried out to analyse the effect of the duty cycle on the response percentage reduction in surface roughness (%∆Ra). It has been observed that an improved %∆Ra has been found with pulsating DC power supply as compared to %∆Ra obtained with DC power supply without pulse at the same process parameters. After conducting the preliminary experiments, the statistical analysis was done to analyse the effect of various process parameters on %∆Ra using response surface methodology (RSM) at 0.16 duty cycle.},
	issn = {0039-2480},	pages = {449-457},	doi = {10.5545/sv-jme.2020.6681},
	url = {https://www.sv-jme.eu/article/a-study-for-nanofinishing-of-en-31-work-piece-with-pulse-dc-power-supply-using-ball-end-magnetorheological-finishing/}
}
Singh, H.,Niranjan, M.,Wattal, R.
2020 July 66. A Study for the Nanofinishing of an EN-31 Workpiece with Pulse DC Power Supply Using Ball-End Magnetorheological Finishing. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 66:7-8
%A Singh, Himmat 
%A Niranjan, Mahendra Singh
%A Wattal, Reeta 
%D 2020
%T A Study for the Nanofinishing of an EN-31 Workpiece with Pulse DC Power Supply Using Ball-End Magnetorheological Finishing
%B 2020
%9 BEMRF; pulse DC power supply; duty cycle; %∆Ra
%! A Study for the Nanofinishing of an EN-31 Workpiece with Pulse DC Power Supply Using Ball-End Magnetorheological Finishing
%K BEMRF; pulse DC power supply; duty cycle; %∆Ra
%X Ball-end magnetorheological finishing (BEMRF) is a high-level nanofinishing process used in finishing different kinds of surfaces including flat, 2- and 3-dimensional, and curved surfaces. In the present study, a pulse DC power supply is used to energize the electromagnet of magnetorheological (MR) finishing tool. The experiments have been conducted on EN-31 flat workpiece surface with and without pulse DC power supply using a magnetizing current (MC) 2.5 A, a working gap (WG) of 1.5 mm and a rotational speed of the tool (RST) of 500 rpm with a feed rate of workpiece of 50 mm/min. The study has been carried out to analyse the effect of the duty cycle on the response percentage reduction in surface roughness (%∆Ra). It has been observed that an improved %∆Ra has been found with pulsating DC power supply as compared to %∆Ra obtained with DC power supply without pulse at the same process parameters. After conducting the preliminary experiments, the statistical analysis was done to analyse the effect of various process parameters on %∆Ra using response surface methodology (RSM) at 0.16 duty cycle.
%U https://www.sv-jme.eu/article/a-study-for-nanofinishing-of-en-31-work-piece-with-pulse-dc-power-supply-using-ball-end-magnetorheological-finishing/
%0 Journal Article
%R 10.5545/sv-jme.2020.6681
%& 449
%P 9
%J Strojniški vestnik - Journal of Mechanical Engineering
%V 66
%N 7-8
%@ 0039-2480
%8 2020-07-28
%7 2020-07-28
Singh, Himmat, Mahendra Singh Niranjan, & Reeta  Wattal.
"A Study for the Nanofinishing of an EN-31 Workpiece with Pulse DC Power Supply Using Ball-End Magnetorheological Finishing." Strojniški vestnik - Journal of Mechanical Engineering [Online], 66.7-8 (2020): 449-457. Web.  01 Dec. 2021
TY  - JOUR
AU  - Singh, Himmat 
AU  - Niranjan, Mahendra Singh
AU  - Wattal, Reeta 
PY  - 2020
TI  - A Study for the Nanofinishing of an EN-31 Workpiece with Pulse DC Power Supply Using Ball-End Magnetorheological Finishing
JF  - Strojniški vestnik - Journal of Mechanical Engineering
DO  - 10.5545/sv-jme.2020.6681
KW  - BEMRF; pulse DC power supply; duty cycle; %∆Ra
N2  - Ball-end magnetorheological finishing (BEMRF) is a high-level nanofinishing process used in finishing different kinds of surfaces including flat, 2- and 3-dimensional, and curved surfaces. In the present study, a pulse DC power supply is used to energize the electromagnet of magnetorheological (MR) finishing tool. The experiments have been conducted on EN-31 flat workpiece surface with and without pulse DC power supply using a magnetizing current (MC) 2.5 A, a working gap (WG) of 1.5 mm and a rotational speed of the tool (RST) of 500 rpm with a feed rate of workpiece of 50 mm/min. The study has been carried out to analyse the effect of the duty cycle on the response percentage reduction in surface roughness (%∆Ra). It has been observed that an improved %∆Ra has been found with pulsating DC power supply as compared to %∆Ra obtained with DC power supply without pulse at the same process parameters. After conducting the preliminary experiments, the statistical analysis was done to analyse the effect of various process parameters on %∆Ra using response surface methodology (RSM) at 0.16 duty cycle.
UR  - https://www.sv-jme.eu/article/a-study-for-nanofinishing-of-en-31-work-piece-with-pulse-dc-power-supply-using-ball-end-magnetorheological-finishing/
@article{{sv-jme}{sv-jme.2020.6681},
	author = {Singh, H., Niranjan, M., Wattal, R.},
	title = {A Study for the Nanofinishing of an EN-31 Workpiece with Pulse DC Power Supply Using Ball-End Magnetorheological Finishing},
	journal = {Strojniški vestnik - Journal of Mechanical Engineering},
	volume = {66},
	number = {7-8},
	year = {2020},
	doi = {10.5545/sv-jme.2020.6681},
	url = {https://www.sv-jme.eu/article/a-study-for-nanofinishing-of-en-31-work-piece-with-pulse-dc-power-supply-using-ball-end-magnetorheological-finishing/}
}
TY  - JOUR
AU  - Singh, Himmat 
AU  - Niranjan, Mahendra Singh
AU  - Wattal, Reeta 
PY  - 2020/07/28
TI  - A Study for the Nanofinishing of an EN-31 Workpiece with Pulse DC Power Supply Using Ball-End Magnetorheological Finishing
JF  - Strojniški vestnik - Journal of Mechanical Engineering; Vol 66, No 7-8 (2020): Strojniški vestnik - Journal of Mechanical Engineering
DO  - 10.5545/sv-jme.2020.6681
KW  - BEMRF, pulse DC power supply, duty cycle, %∆Ra
N2  - Ball-end magnetorheological finishing (BEMRF) is a high-level nanofinishing process used in finishing different kinds of surfaces including flat, 2- and 3-dimensional, and curved surfaces. In the present study, a pulse DC power supply is used to energize the electromagnet of magnetorheological (MR) finishing tool. The experiments have been conducted on EN-31 flat workpiece surface with and without pulse DC power supply using a magnetizing current (MC) 2.5 A, a working gap (WG) of 1.5 mm and a rotational speed of the tool (RST) of 500 rpm with a feed rate of workpiece of 50 mm/min. The study has been carried out to analyse the effect of the duty cycle on the response percentage reduction in surface roughness (%∆Ra). It has been observed that an improved %∆Ra has been found with pulsating DC power supply as compared to %∆Ra obtained with DC power supply without pulse at the same process parameters. After conducting the preliminary experiments, the statistical analysis was done to analyse the effect of various process parameters on %∆Ra using response surface methodology (RSM) at 0.16 duty cycle.
UR  - https://www.sv-jme.eu/article/a-study-for-nanofinishing-of-en-31-work-piece-with-pulse-dc-power-supply-using-ball-end-magnetorheological-finishing/
Singh, Himmat, Niranjan, Mahendra, AND Wattal, Reeta.
"A Study for the Nanofinishing of an EN-31 Workpiece with Pulse DC Power Supply Using Ball-End Magnetorheological Finishing" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 66 Number 7-8 (28 July 2020)

Authors

Affiliations

  • Delhi Technological University, Mechanical Engineering Department, India 1

Paper's information

Strojniški vestnik - Journal of Mechanical Engineering 66(2020)7-8, 449-457

https://doi.org/10.5545/sv-jme.2020.6681

Ball-end magnetorheological finishing (BEMRF) is a high-level nanofinishing process used in finishing different kinds of surfaces including flat, 2- and 3-dimensional, and curved surfaces. In the present study, a pulse DC power supply is used to energize the electromagnet of magnetorheological (MR) finishing tool. The experiments have been conducted on EN-31 flat workpiece surface with and without pulse DC power supply using a magnetizing current (MC) 2.5 A, a working gap (WG) of 1.5 mm and a rotational speed of the tool (RST) of 500 rpm with a feed rate of workpiece of 50 mm/min. The study has been carried out to analyse the effect of the duty cycle on the response percentage reduction in surface roughness (%∆Ra). It has been observed that an improved %∆Ra has been found with pulsating DC power supply as compared to %∆Ra obtained with DC power supply without pulse at the same process parameters. After conducting the preliminary experiments, the statistical analysis was done to analyse the effect of various process parameters on %∆Ra using response surface methodology (RSM) at 0.16 duty cycle.

BEMRF; pulse DC power supply; duty cycle; %∆Ra