A finishing belt device includes a pressure apparatus having a pressure roller that applies a pressing force to the rear side of a finishing belt that, when viewed in the running direction of the finishing belt, an active side of the finishing belt is pressed against a peripheral surface to be finished of a workpiece in a linear contact region at the level of the pressing force. A pressure roller support is provided with the pressure roller arranged as a first pressure roller and another pressure roller is arranged as a second pressure roller. When viewed in the running direction of the finishing belt, the active side of the finishing belt is pressed against the peripheral surface to be finished of the workpiece in two spaced-apart linear contact regions via the two pressure rollers. The invention also relates to a method for finishing a peripheral surface of a cam surface.

A polishing apparatus polishes a periphery of a substrate. This polishing apparatus includes a rotary holding mechanism configured to hold the substrate horizontally and rotate the substrate, plural polishing head assemblies provided around the substrate, plural tape supplying and recovering mechanisms configured to supply polishing tapes to the plural polishing head assemblies and recover the polishing tapes from the plural polishing head assemblies, and plural moving mechanisms configured to move the plural polishing head assemblies in radial directions of the substrate held by the rotary holding mechanism. The tape supplying and recovering mechanisms are located outwardly of the plural polishing head assemblies in the radial directions of the substrate, and the tape supplying and recovering mechanisms are fixed in position.

A polishing unit of a polishing apparatus according to an embodiment includes: a polishing head having a pressing member configured to hold a polishing tape and press the polishing tape against a peripheral portion of a substrate from above; a tape supply and recovery mechanism configured to supply the polishing tape to the polishing head and recover the polishing tape from the polishing head; a first moving mechanism configured to move the polishing head in a radial direction of the substrate; and a second moving mechanism configured to move the tape supply and recovery mechanism in the radial direction of the substrate. The positioning unit includes a positioning block having a contacting surface, and alignment of the polishing tape is conducted by the second moving mechanism moving the tape supply and recovery mechanism so that a substrate-side edge of the polishing tape makes contact with the contacting surface.

A polishing method and a polishing film are provided for automatically performing multi-stage batch polishing on an end surface of a workpiece. An end surface of a workpiece and a polishing plate are moved relative to each other while bringing the end surface of the workpiece into contact with a polishing film of the polishing plate. The end surface is moved in a circular motion with a diameter 2 R relative to the polishing film; the center of the circular motion is moved linearly by a distance S on the polishing film; the polishing film is provided with first, second, and third polishing surfaces; and the polishing film is further provided with cleaning surfaces between the polishing surfaces so that the range of the distance S in which one rotation in the circular motion crosses over different polishing surfaces is reduced, or does not cross over different polishing surfaces.

The present invention relates to a polishing apparatus and a polishing method for polishing a substrate, such as a wafer, and more particularly to a polishing apparatus and a polishing method for polishing an edge portion of a wafer with use of a polishing tape. The polishing apparatus includes a substrate holder (1) configured to hold and rotate a substrate (W), and a polishing unit (7) configured to polish an edge portion of the substrate (W) with use of a polishing tape (5). The polishing unit (7) includes: a disk head (12) having a circumferential surface for supporting the polishing tape (5); and a head moving device (50) configured to move the disk head (12) in a tangential direction of the substrate (W) and to bring the polishing tape (5) on the circumferential surface of the disk head (12) into contact with the edge portion of the substrate (W).

A polishing apparatus polishes a periphery of a substrate by bringing a polishing tool into sliding contact with the substrate. The polishing apparatus includes a substrate-holding mechanism configured to hold a substrate and rotate the substrate, a polishing mechanism configured to press a polishing tool against a periphery of the substrate so as to polish the periphery, and a periphery-supporting mechanism configured to support the periphery of the substrate by a fluid. The periphery-supporting mechanism is configured to support a surface of the substrate from an opposite side or the same side of the periphery of the substrate.

A tool sharpener has a guide assembly to support a cutting tool adjacent an abrasive medium. A drive assembly advances the abrasive medium with respect to the guide assembly. A control mechanism provides a first control input value to move the medium and achieve a first material take off (MTO) rate during a coarse sharpening operation upon the tool. A second control input value from the control circuit moves the medium to achieve a lower, second MTO rate during a fine sharpening operation. The control mechanism transitions the medium from the first MTO rate to the second MTO rate responsive to a timer mechanism indicating a conclusion of a predetermined elapsed time interval.

A substrate processing method which can clean a peripheral portion of a substrate after polishing and can check the cleaning effect of the peripheral portion of the substrate is disclosed. The substrate processing method includes polishing a peripheral portion of the substrate by pressing a polishing tape having abrasive grains against the peripheral portion of the substrate with a first head, cleaning the peripheral portion of the substrate by supplying a cleaning liquid to the peripheral portion of the substrate after polishing, bringing a tape having no abrasive grains into contact with the peripheral portion of the substrate after cleaning by a second head, applying light to the tape and receiving reflected light from the tape by a sensor, and judging that the peripheral portion of the substrate is contaminated when an intensity of the received reflected light is lower than a predetermined value.

A polishing apparatus which can keep a width of a polishing tool constant when a peripheral portion of a substrate is polished by the polishing tool is disclosed. The polishing apparatus includes a substrate holder 3 configured to hold a substrate W and to rotate the substrate W and a pressing pad 50 configured to press a polishing tool 23 against a peripheral portion of the substrate W held by the substrate holder 3. The pressing pad 50 includes an elastic member 55 having a pressing surface 55a configured to press the polishing tool 23 against the peripheral portion of the substrate W and a support member 56 configured to support the elastic member 55. The support member 56 has a recess 57 formed in a front surface 56a of the support member 56, the elastic member 55 being capable of entering the recess 57.

A polishing unit of a polishing apparatus according to an embodiment includes: a polishing head having a pressing member configured to hold a polishing tape and press the polishing tape against a peripheral portion of a substrate from above; a tape supply and recovery mechanism configured to supply the polishing tape to the polishing head and recover the polishing tape from the polishing head; a first moving mechanism configured to move the polishing head in a radial direction of the substrate; and a second moving mechanism configured to move the tape supply and recovery mechanism in the radial direction of the substrate. The positioning unit includes a positioning block having a contacting surface, and alignment of the polishing tape is conducted by the second moving mechanism moving the tape supply and recovery mechanism so that a substrate-side edge of the polishing tape makes contact with the contacting surface.