Journal
MOLECULES
Volume 27, Issue 3, Pages -Publisher
MDPI
DOI: 10.3390/molecules27030603
Keywords
monocrystalline nickel; molecular dynamics; nanofabrication; tool shape; surface roughness
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This paper studies the influence of tool shape on the surface quality of monocrystalline nickel nanofabrication. By using molecular dynamics simulation and statistical analysis, the impact of different tool rake angles on the surface roughness is investigated. The study concludes that there is a critical clearance angle of 8-10 degrees in the research conditions.
In this paper, the influence of tool shape on the surface quality of monocrystalline nickel nanofabrication is studied. The research mainly adopts the method of molecular dynamics simulation, through the statistics of the atomic coordinates of the machined surface, then calculates the influence of different tool rake angles on the surface roughness of monocrystalline nickel. It is concluded that the surface roughness distribution is 'W' when the rake angle of the diamond tool changes from -45 degrees to +45 degrees. When analyzing the relationship between the tool shape and the processing temperature, it is found that when the clearance angle of the tool reaches a certain range, the clearance angle is further increased, and the temperature of the workpiece does not change during machining. Therefore, a large number of simulations were carried out, and it was concluded that there is a critical clearance angle, and the critical clearance angle of the tool in the research conditions is 8-10 degrees.
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