Тезис доклада. 12th Inteational Conference of Inteational
Association for Computer Methods and Advances in Geomechanics
(IACMAG), 2008, Goa, India. – P. 344-352.
Название на русском языке: Моделирование механизма обработки при
магнитно-абразивном полировании.
Аннотация на английском языке:
Magnetic Abrasive Polishing (MAP) is a super-finishing process primarily used for polishing of nonmagnetic and hard materials like, ceramics and stainless steel. This paper deals with the detailed parametric study in polishing of stainless steel work surface. Statistically designed experiments based on Taguchi methods show that size-ratio, tool-work surface clearance, polishing speed, magnetic abrasive diameter and polishing time have significant effect on the surface roughness obtained. A minimum surface roughness of 20 nmRa was achieved by this process. The surface roughness predicted by the proposed analytical model was found to agree reasonably well with the experimental results .
Magnetic Abrasive Polishing (MAP) is a super-finishing process primarily used for polishing of nonmagnetic and hard materials like, ceramics and stainless steel. This paper deals with the detailed parametric study in polishing of stainless steel work surface. Statistically designed experiments based on Taguchi methods show that size-ratio, tool-work surface clearance, polishing speed, magnetic abrasive diameter and polishing time have significant effect on the surface roughness obtained. A minimum surface roughness of 20 nmRa was achieved by this process. The surface roughness predicted by the proposed analytical model was found to agree reasonably well with the experimental results .