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Parametric Optimization of Dry Laser Cleaning Using Metaheuristics Processes: To Study the Effect of Laser Cleaning Parameters on Surface Temperature Rise and Thermo-Elastic Force

Parametric Optimization of Dry Laser Cleaning Using Metaheuristics Processes: To Study the Effect of Laser Cleaning Parameters on Surface Temperature Rise and Thermo-Elastic Force

Pritam Pain, Goutam Kumar Bose, Sayantan Roy
Copyright: © 2021 |Pages: 17
ISBN13: 9781799836247|ISBN10: 179983624X|ISBN13 Softcover: 9781799836254|EISBN13: 9781799836261
DOI: 10.4018/978-1-7998-3624-7.ch001
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MLA

Pain, Pritam, et al. "Parametric Optimization of Dry Laser Cleaning Using Metaheuristics Processes: To Study the Effect of Laser Cleaning Parameters on Surface Temperature Rise and Thermo-Elastic Force." Machine Learning Applications in Non-Conventional Machining Processes, edited by Goutam Kumar Bose and Pritam Pain, IGI Global, 2021, pp. 1-17. https://doi.org/10.4018/978-1-7998-3624-7.ch001

APA

Pain, P., Bose, G. K., & Roy, S. (2021). Parametric Optimization of Dry Laser Cleaning Using Metaheuristics Processes: To Study the Effect of Laser Cleaning Parameters on Surface Temperature Rise and Thermo-Elastic Force. In G. Bose & P. Pain (Eds.), Machine Learning Applications in Non-Conventional Machining Processes (pp. 1-17). IGI Global. https://doi.org/10.4018/978-1-7998-3624-7.ch001

Chicago

Pain, Pritam, Goutam Kumar Bose, and Sayantan Roy. "Parametric Optimization of Dry Laser Cleaning Using Metaheuristics Processes: To Study the Effect of Laser Cleaning Parameters on Surface Temperature Rise and Thermo-Elastic Force." In Machine Learning Applications in Non-Conventional Machining Processes, edited by Goutam Kumar Bose and Pritam Pain, 1-17. Hershey, PA: IGI Global, 2021. https://doi.org/10.4018/978-1-7998-3624-7.ch001

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Abstract

The workpiece sample which is a copper printed circuit board (PCB) is mounted on a micro-controlled assembly with double-faced adhesive tape. Here the primary objective is to study the effect of laser cleaning parameters on surface temperature rise and thermoelastic force. The variation of instantaneous temperature rise and thermoelastic force with time using different process parameters (e.g., type of power, focal length, and scanning speed) at a constant absorption coefficient is also investigated, and the best parametric combination have been found out in this experiment. After successful completion of the experimentation, it is observed that the surface temperature increases with the increase in laser power. The maximum temperature rise is observed when the laser power is maximum, and the focal length is minimum. It is further observed that the thermoelastic force increases with the increase in laser power. Maximum thermoelastic force is observed when the laser power is maximum, and the focal length is minimum.

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