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Zolfaghari, M., Heydari, H., Vanaki Farahan, A., Tahmasbi, V.. (1402). Investigating the Effect of Laser Parameters on Nano-Machining of Silicon Carbide by Response Surface Method Using Molecular Dynamics Simulation. پژوهش های زبان شناسی تطبیقی, 8(2), -. doi: 10.22084/jrstan.2024.27752.1241
M. Zolfaghari; H. Heydari; A. Vanaki Farahan; V. Tahmasbi. "Investigating the Effect of Laser Parameters on Nano-Machining of Silicon Carbide by Response Surface Method Using Molecular Dynamics Simulation". پژوهش های زبان شناسی تطبیقی, 8, 2, 1402, -. doi: 10.22084/jrstan.2024.27752.1241
Zolfaghari, M., Heydari, H., Vanaki Farahan, A., Tahmasbi, V.. (1402). 'Investigating the Effect of Laser Parameters on Nano-Machining of Silicon Carbide by Response Surface Method Using Molecular Dynamics Simulation', پژوهش های زبان شناسی تطبیقی, 8(2), pp. -. doi: 10.22084/jrstan.2024.27752.1241
Zolfaghari, M., Heydari, H., Vanaki Farahan, A., Tahmasbi, V.. Investigating the Effect of Laser Parameters on Nano-Machining of Silicon Carbide by Response Surface Method Using Molecular Dynamics Simulation. پژوهش های زبان شناسی تطبیقی, 1402; 8(2): -. doi: 10.22084/jrstan.2024.27752.1241

Investigating the Effect of Laser Parameters on Nano-Machining of Silicon Carbide by Response Surface Method Using Molecular Dynamics Simulation

Journal of Stress Analysis
دوره 8، شماره 2، 2024
نوع مقاله: Original Research Paper
شناسه دیجیتال (DOI): 10.22084/jrstan.2024.27752.1241
نویسندگان
M. Zolfaghari* 1؛ H. Heydari2؛ A. Vanaki Farahan1؛ V. Tahmasbi3
1Department of Mechanical Engineering, Arak University, Arak, Iran
2School of Mechanic Engineering, Shahrekord University, Shahrekord, Iran
3Mechanical Engineering Department, Arak University of Technology, Arak, Iran
چکیده
The ultra-precise machining process of parts is a very advanced method to achieve dimensional accuracy and surface smoothness in the nanometer range for the production of defense, aerospace, optics, and electronics parts. In this research, the nano-machining process of silicon carbide single crystal under the effect of laser is investigated using the molecular dynamics method. Investigating the effects of the parameters of diameter, pulse intensity, and laser advance speed on this process by the response surface method shows that by reducing the advance speed from 150 to 50 meters per second, the diameter increases from 40 to 80 angstroms and the laser pulse intensity increases from 4×108 to 109 W/cm2, the values of shear forces, thrust forces, and Von Mises stress of the workpiece are reduced by 36.1%, 23.2%, and 39.3%, respectively. In addition, when the diameter was 40 angstroms, the pulse intensity was 109 W/cm2, and the laser advance speed was 50 m/s, the hydrostatic stress and machining forces were minimized and the machining process was optimized. By comparing the conventional nano-machining and the optimal mode of the laser nano-machining process, the value of shear forces decreased from 1770 nano-Newtons to 1115 nano-Newtons and the value of thrust forces decreased from 1350 nano-Newtons to 1137 nano-Newtons. Finally, the structural changes investigated by the radial distribution function indicate that the laser-assisted nano-machining process produces fewer structural changes along the bonds.
کلیدواژه‌ها
Nano-machining؛ Laser؛ Molecular dynamics؛ Silicon carbide؛ Response surface method
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تعداد مشاهده مقاله: 38


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