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Optimization of Surface Roughness during Nd:YAG Laser Micro-Turning Process of Alumina


Affiliations
1 Mechanical Engineering Department, Aliah University, Kolkata-700091, India
2 Production Engineering Department, Jadavpur University, Kolkata-700032, India
     

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Laser micro-turning process is one of the newly developed laser material processing technologies to generate micro-turned groove or surface on cylindrical workpiece. In the present paper, an attempt has been made to investigate the laser micro-turning operation on cylindrical shaped aluminium oxide (Al2O3) ceramic to study the influence of different laser micro-turning process parameters namely, laser average power, pulse frequency, workpiece rotational speed, assist air pressure and Y feed rate using response surface methodology (RSM) experimental plan. The mathematical model for surface roughness (Ra) has been developed and the adequacy of the model has been tested through analysis of variance (ANOVA) results. Average power and pulse frequency are the most significant process parameters. Optimal parametric combination for minimum value of surface roughness has been achieved as 5.23μm at parametric setting of average power of 9.04 W, pulse frequency of 4108.18 Hz, workpiece rotational speed of 451.16 rpm, air pressure of 1.44 kgf/cm2 and Y feed rate of 0.37 mm/s. Confirmation experimental results show a good agreement between RSM based optimal and experimental value of response criterion.

Keywords

Laser Micro-Turning, Surface Roughness, Alumina, Response Surface Methodology.
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  • Optimization of Surface Roughness during Nd:YAG Laser Micro-Turning Process of Alumina

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Authors

G. Kibria
Mechanical Engineering Department, Aliah University, Kolkata-700091, India
B. Doloi
Production Engineering Department, Jadavpur University, Kolkata-700032, India
B. Bhattacharyya
Production Engineering Department, Jadavpur University, Kolkata-700032, India

Abstract


Laser micro-turning process is one of the newly developed laser material processing technologies to generate micro-turned groove or surface on cylindrical workpiece. In the present paper, an attempt has been made to investigate the laser micro-turning operation on cylindrical shaped aluminium oxide (Al2O3) ceramic to study the influence of different laser micro-turning process parameters namely, laser average power, pulse frequency, workpiece rotational speed, assist air pressure and Y feed rate using response surface methodology (RSM) experimental plan. The mathematical model for surface roughness (Ra) has been developed and the adequacy of the model has been tested through analysis of variance (ANOVA) results. Average power and pulse frequency are the most significant process parameters. Optimal parametric combination for minimum value of surface roughness has been achieved as 5.23μm at parametric setting of average power of 9.04 W, pulse frequency of 4108.18 Hz, workpiece rotational speed of 451.16 rpm, air pressure of 1.44 kgf/cm2 and Y feed rate of 0.37 mm/s. Confirmation experimental results show a good agreement between RSM based optimal and experimental value of response criterion.

Keywords


Laser Micro-Turning, Surface Roughness, Alumina, Response Surface Methodology.



DOI: https://doi.org/10.22485/jaei%2F2014%2Fv84%2Fi3-4%2F119860