There is provided a removal method of a carrier plate used when the carrier plate is removed from a workpiece bonded to a region excluding an outer rim part in a front surface of the carrier plate by a temporary bonding layer disposed on the whole of the front surface of the carrier plate. This removal method of a carrier plate includes a temporary bonding layer removal step of removing part or all of an outer rim part of the temporary bonding layer, a holding step of holding the workpiece from the upper side by a holding unit after removing part or all of the outer rim part of the temporary bonding layer, and a carrier plate removal step of removing the carrier plate from the workpiece by applying a downward force to the outer rim part of the carrier plate from the side of the front surface.

A method of removing a carrier plate is used to peel off and remove the carrier plate from a workpiece of a disk-shaped composite substrate in which the workpiece is disposed on a face side of the carrier plate with a temporary adhesive layer interposed therebetween. The method includes a step forming step of forming a step protruding laterally from the carrier plate more on a reverse side of the carrier plate than on the face side of the carrier plate, by removing an outer circumferential portion of the workpiece, an outer circumferential portion of the temporary adhesive layer, and a face-side side of an outer circumferential edge of the carrier plate, a starting point region forming step of forming a starting point region that acts as a starting point in peeling off the carrier plate from the workpiece.

A carrier plate removing method for removing a carrier plate from a workpiece previously provided through a temporary bonding layer on the front side of the carrier plate is provided. The carrier plate removing method includes a shoulder portion forming step of processing a peripheral portion of the carrier plate along a peripheral edge thereof from the front side of the carrier plate on which the workpiece is provided, thereby forming a shoulder portion as a lower part connected to the back side of the carrier plate, the lower part projecting horizontally outward from the side surface of an upper part connected to the front side of the carrier plate.

There is provided a removal method of a carrier plate used when the carrier plate is removed from a workpiece bonded to a region excluding an outer rim part in a front surface of the carrier plate by a temporary bonding layer disposed on the whole of the front surface of the carrier plate. This removal method of a carrier plate includes a temporary bonding layer removal step of removing part or all of an outer rim part of the temporary bonding layer, a holding step of holding the workpiece from the upper side by a holding unit after removing part or all of the outer rim part of the temporary bonding layer, and a carrier plate removal step of removing the carrier plate from the workpiece by applying a downward force to the outer rim part of the carrier plate from the side of the front surface.

A combination printer and cutting device for printing upon and cutting a web of media or tag stock into individual units. The device may cut vinyl, plastic, or RFID stock material as it moves through the printer in both back and forth directions. The device comprises a printer and a cutting apparatus that is further comprised of a carriage assembly and a movable cutter assembly. The cutter assembly is easily interchangeable and comprises a cutting element such as a wheel blade, and a pressure adjusting element for adjusting the amount of pressure applied by the cutting element to the stock material. Alternatively, the cutter assembly may be manufactured with a predetermined pressure load, but still permit an operator to adjust the depth of cut. The cutting apparatus is adaptable for use with both new and existing printers.

Systems and methods are provided for removing adhesive features. One embodiment is a method for operating a cryogenic-assisted adhesive a removal tool. The method includes dispensing a cryogenic fluid onto an adhesive feature disposed at a surface of a structure, cooling the adhesive feature to cause a physical change making the adhesive feature brittle, and operating the cryogenic-assisted adhesive removal tool to cleave the adhesive feature from the surface while the adhesive feature is physically changed.

A film-peeling apparatus is adapted to peel a protective film on a surface of a substrate. The surface of the substrate has a bare area which is not covered by the protective film. The film-peeling apparatus includes a punching member, a connector connected to the punching member, and a controller. The controller is configured for driving, through the connector, the punching member to punch at predetermined positions nearby or on a first edge of the protective film adjacent to the bare area.

A method and apparatus for replacement of damages display shield (typically glass) covering a display screen on a device, typically a mobile phone. Mobile phones have an electronic display protected by a glass shield. Between the glass and the display is often a plastic polarizing or other intermediary sheet. Removal of a damage glass can be accomplished by cutting thru the polarizer with a moving wire or blade. This separates the glass from the sensitive display and allows replacement of the glass without damaging the more expensive display.

A winder unit (1) for winding cutting line (41), for vehicle glazing panel removal, has a rotatable spindle shaft (61) for winding the cutting line (41) and a ratchet device (90) mounted to the spindle shaft (61) by means of a one-way rotational bearing or clutch (75). Typically the ratchet device (90) has a component mounted to rotate in unison with the one-way rotational bearing or clutch. The improvement provides a rotational directional control providing 2 one-way rotational control devices in concert.

Methods of processing a first substrate bonded to a second substrate include moving a wire along an interface to propagate a debonding front and debond the first substrate from the second substrate. In some embodiments, the first substrate includes a thickness less than or equal to about 300 m. In further embodiments, the wire includes a tensile strength less than a critical failure stress of the first substrate. In still further embodiments, the wire is configured to conform to a shape of the debonding front during the step of moving the wire such that one or more edges of the first substrate are debonded from the second substrate prior to a debonding of a corresponding interior portion of the first substrate from the second substrate.