To provide a high-quality finish to multifaceted shapes and miniaturized parts, finishing by abrasion is one of the most critical and arduous intensive machining processes. AFM is a process that suits such kinds of tasks. After improving the existing AFM setup, the novel MAFM setup has been developed successfully by adding the magnetization effect. An aluminum fixture has also been introduced and replaced the nylon fixture. This research explores an investigation on MAFM of SiC/B₄C hybrid MMCs with aluminum as a base material. An effort has been done for modeling two performance measures, MRR and ΔRa through RSM. The value of input parameters such as extrusion pressure, number of cycles, the concentration of abrasives, work material, mesh size and magnetic flux density has been varied to investigate their influence upon response parameters. A desirability function has been used to optimize the response parameters.

为了给多面形状和微型零件提供高质量的表面处理，通过磨削进行表面处理是最关键，最艰巨的密集加工过程之一。AFM是适合此类任务的过程。在改进了现有的AFM设置之后，通过增加磁化效果成功开发了新颖的MAFM设置。还引入了铝制夹具，并取代了尼龙制夹具。本研究探索了SiC / B _4的MAFM研究。以铝为基础材料的C混合MMC。已经努力通过RSM对两个性能指标MRR和ΔRa进行建模。输入参数的值（例如挤出压力，循环次数，磨料浓度，工作材料，筛孔尺寸和磁通密度）已进行了更改，以研究它们对响应参数的影响。期望函数已用于优化响应参数。