Polishing pad is an effective tool for polishing workpiece by removing roughness on the surface. Use of polishing pad can be traced back to the ancient mirror polishing of objects of jade, bronze and precious stone. With the development and application of semiconductor production technology and wafer surface polishing the development of polishing pads is also growing in fast pace. While a lot of researches on the polishing conditions and mechanisms have been conducted few studies can be found with the making of new polishing pads. This study focuses at the combined effects on surface profiles of workpieces polished by newly developed polishing pads and polishing conditions. This study employs custom made hot melt adhesive (HMA) pad to polish silicon workpiece surface and SUS-304 stainless surface together with magnetic compound fluid (MCF). The experiments results show that the quality of HMA pad is highly dependent upon the spraying distance when coating pad surface. Surface of HMA pad coated with 5 w.t% grain mixture is of better surface roughness and uniformity (WIWNU) when polishing silicon workpiece. With respect to sub-surface layer of silicon workpiece it is found that the thickness of damage layer is around 100-150 nm and the amorphous silicon layer around 10 nm. When applying MCF polishing to silicon workpiece it is found that better surface quality may be improved as well. For magnetic compound fluid used in stainless workpiece polishing it is found that a mixture of 30 gram silicon oil with 1000 mm2/s viscosity, 10 gram of carbonyl iron powder, 1 gram of ferric ferrous oxide, 0.1 gram silica and 1 gram of Silane coupling agent may give a 6-hour may reach a suspension effect up to 6 hours. Surface roughness of SUS-304 stainless workpiece may be reduced to 0.068 μm after polished by HMA pad together with MCF as dual magnetic poles (either attraction or repulsion) always led to better iii polishing results when compared with single magnetic pole one.