A surface processing method for a SiC substrate includes the following processes or steps: anodizing a workpiece surface of the SiC substrate by passing a current having a current density of 15 mA/cm.sup.2 or more through the SiC substrate as an anode in the presence of an electrolyte; disposing a grinding wheel layer of a surface processing pad to the workpiece surface and selectively removing, with the grinding wheel layer, an oxide formed on the workpiece surface through anodization; and performing, simultaneously or sequentially, the anodization of the workpiece surface and the selective removal of the oxide formed on the workpiece surface with the grinding wheel layer.

A segment for detachably arranging on a carrier, which can be rotatably mounted relative to an axis of rotation, for forming a disc brush or for forming a cleaning, grinding or polishing disc, includes a segment body, wherein multiple bristles protrude from the underside thereof or an abrasive grit and/or a fiber structure is arranged on the underside thereof, wherein the segment body has a segment guide extending in the radial direction in relation to the axis of rotation of the carrier on a radially internal edge and spaced apart from an external—in relation to a circumferential direction—lateral edge of the segment body, which segment guide is designed to cooperate with a corresponding carrier guide formed or arranged on the carrier for arranging the segment on the carrier.

A disc-shaped polishing pad (1) is used for a polishing method of the present invention. The polishing pad (1) has a peripheral surface (111) on a polishing surface (10) side in an axial direction of the disc of a tapered surface whose diameter is reduced to the polishing surface (10). An angle formed by the peripheral surface (111) and the polishing surface (10) is 125° or more and less than 180°. The polishing pad (1) has a hardness immediately after a pressing surface is in close contact of 40 or more by a testing method specified in an appendix 2 of JIS K7312: 1996, “Spring Hardness Test Type C Testing Method”. A slurry containing abrasives is supplied to a polished surface larger than the polishing surface (10). The polishing surface (10) is pressed against the polished surface and the polishing pad (1) is moved to polish the polished surface.

A disc-shaped polishing pad (1) is used for a polishing method of the present invention. The polishing pad (1) has a peripheral surface (111) on a polishing surface (10) side in an axial direction of the disc of a tapered surface whose diameter is reduced to the polishing surface (10). An angle formed by the peripheral surface (111) and the polishing surface (10) is 125° or more and less than 180°. The polishing pad (1) has a hardness immediately after a pressing surface is in close contact of 40 or more by a testing method specified in an appendix 2 of JIS K7312: 1996, “Spring Hardness Test Type C Testing Method”. A slurry containing abrasives is supplied to a polished surface larger than the polishing surface (10). The polishing surface (10) is pressed against the polished surface and the polishing pad (1) is moved to polish the polished surface.

A multi-station wheel deburring device is disclosed, which consists of a lower lifting translation system, a first brush system, a second brush system, a synchronous clamping drive system and a third brush system, etc. The multi-station wheel deburring device can be used for removing burrs from the root of a wheel flange, a center hole, bolt holes and a back cavity, can automatically adjust the position of each brush according to the dimension and shape of a wheel, and at the same time, has the characteristics of high automation, high removal efficiency, advanced technology, strong universality and high safety and stability.

One embodiment of the present invention provides an Fe-based amorphous alloy ribbon for an Fe-based nanocrystalline alloy, the Fe-based amorphous alloy ribbon being a cooled body of a molten metal that has been applied to a surface of a chill roll, wherein the Fe-based amorphous alloy ribbon includes a recess having a depth of 1 μm or more in a 0.647 mm×0.647 mm region located in a central part, in the ribbon width direction, of a ribbon surface, which is a cooled surface, in which a maximum area of the recess having a depth of 1 μm or more is 3000 μm.sup.2 or less; and a method of manufacturing the same.

A device for removing wheel burrs with first brushes and second brushes includes a wheel positioning and pressing system configured to position and press of the wheel, a center cap mouth burr removing system configured to remove burrs of the wheel cap mouth with the second brushes, and a wheel spoke back cavity burr removing system configured to remove burrs of the wheel spoke back cavity with the first brushes. The first brushes are mounted on an expandable first capsule and the second brushes are mounted on an expandable second conical capsule, and filling the expandable first capsule and the expandable second conical capsule with air and removing air from the expandable first capsule and the expandable second conical capsule change the shapes of the first brushes and the second brushes to accommodate wheels with different shape and size for deburring.

A multi-functional wheel deburring device is capable of removing burrs at the center hole, the flange weight reducing socket, the spoke back cavity weight reducing socket and the spoke edge of the wheel during the use.

A manufacturing method of a home appliance including a hairline according to disclosed embodiment includes forming at least one plating layer on the base material, processing the transverse hairline on the upper surface of the plating layer by tilting the hairline processing wheel at a predetermined angle, and forming a coating layer on the hairline.

The present disclosure provides an adjustable device for removing burrs of a back cavity of a wheel. The adjustable device for removing the burrs of the back cavity of the wheel includes a frame provided with a rotary table inside, a support frame is fixedly connected to the rotary table, and a left rotary table and a right rotary table are arranged on the support frame. The device is ingenious in design, novel in conception, high in universality, short in cycle time and high in efficiency, and is suitable for removing burrs of wheels in different specifications.