Abstract
High quality, highly efficient finishing processes are required for finishing difficult-to-machine materials. Magnetic abrasive finishing (MAF) process is a finishing method that can obtain a high accuracy surface using fine magnetic particles and abrasive particles, but has poor finishing efficiency. On the contrary, fixed abrasive polishing (FAP) is a polishing process can obtain high material removal efficiency but often cannot provide a high-quality surface at the nano-scale. Therefore, this work proposes a new finishing process, which combines the magnetic abrasive finishing process and the fixed abrasive polishing process (MAF-FAP). To verify the proposed methodology, a finishing device was developed and finishing experiments on alumina ceramic plates were performed. Furthermore, the mechanism of the MAF-FAP process was investigated. In addition, the influence of process parameters on finishing characteristics is discussed. According to the experimental results, this process can achieve high-efficiency finishing of brittle hard materials (alumina ceramics) and can obtain nano-scale surfaces. The surface roughness of the alumina ceramic plate is improved from 202.11 nm Ra to 3.67 nm Ra within 30 min.
Highlights
Magnetic abrasive finishing (MAF) process are used for the precision finishing of the inner surface of circular tubes, the mirror finishing of flat parts, and the precision edge finishing of complex curved parts [1,2,3]
Process, a certain gap is provided between the magnetic pole and the workpiece, and a magnetic brush composed of fine particles is formed in this gap
We propose a new finishing process, magnetic abrasive finishing process combined with the fixed abrasive polishing process (MAF-FAP), and expect it to achieve high-efficiency finishing of brittle hard materials and achieve nano-scale surface quality
Summary
Magnetic abrasive finishing (MAF) process are used for the precision finishing of the inner surface of circular tubes, the mirror finishing of flat parts, and the precision edge finishing of complex curved parts [1,2,3]. Among them, when using the plane MAF process, a certain gap is provided between the magnetic pole and the workpiece, and a magnetic brush composed of fine particles (mixed magnetic particles and abrasive particles) is formed in this gap. This process can obtain a better surface finish, there is a problem in material removal efficiency, and there is a strong demand for improving the finishing efficiency.
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