A separating device and method for a bonded cine film, belonging to the field of image file protection and repair technologies. The separating device comprises a pressurizing device, a separating device and a liquid nitrogen storage device. The pressurizing device is connected to the liquid nitrogen storage device; the liquid nitrogen storage device is connected to the separating device for providing liquid nitrogen thereto; the separating device comprises a film receiving chamber for accommodating a film to be separated; the pressurizing device pressurizes the liquid nitrogen storage device allowing liquid nitrogen to enter the film receiving chamber. Due to a difference between expansion coefficients of a base layer and emulsion layer of the film under low temperature, micro-pores and gaps may be generated in the base layer and the emulsion layer of a bonded film roll; the liquid nitrogen penetrates into the micro-pores and gaps of the bonded film.

Systems and methods for debonding a carrier from a semiconductor device are disclosed herein. In one embodiment, a system for debonding a carrier from a semiconductor device includes a support member positioned to carry the semiconductor device and a fluid delivery device having an exit positioned to direct a fluid toward an adhesive layer between the carrier and the semiconductor device. The fluid directed from the fluid delivery device initiates debonding of the carrier from the semiconductor device by weakening or loosening at least a portion of the adhesive. The system further includes a liftoff device configured to releasably engage the carrier and apply a debonding force to the carrier to complete debonding of the carrier from the semiconductor device.

The invention relates to the use of mixtures of water and essential oils selected from the group consisting of phenols, phenylpropanoids and furanocoumarins, for separating multilayered composites for the segregated recycling of polymer/metal films.

The present invention discloses a separating device for a bonded cine film and a method therefor, which belong to the field of image file protection and repair technologies. The separating device comprises a pressurizing device, a separating device and a liquid nitrogen storage device; the pressurizing device is connected to the liquid nitrogen storage device for providing a pressure thereto; the liquid nitrogen storage device is connected to the separating device for providing liquid nitrogen thereto; the separating device is provided therein with a film receiving chamber for accommodating a film to be separated; the pressurizing device pressurizes the liquid nitrogen storage device to allow the liquid nitrogen to enter the film receiving chamber; due to a difference between expansion coefficients of a base layer and an emulsion layer of the film under a low temperature, micro-pores and gaps may be generated in the base layer and the emulsion layer of a bonded film roll; the liquid nitrogen penetrates into the micropores and gaps of the bonded film roll, a certain tension is generated during gasification, and viscosity of liquefied gelatin decreases under the low temperature, thereby achieving the purpose of separation; the entire separation process does not damage the pH, dimensional stability or mechanical properties of the film roll, and a non-destructive separation can be achieved.

Systems and methods for debonding a carrier from a semiconductor device are disclosed herein. In one embodiment, a system for debonding a carrier from a semiconductor device includes a support member positioned to carry the semiconductor device and a fluid delivery device having an exit positioned to direct a fluid toward an adhesive layer between the carrier and the semiconductor device. The fluid directed from the fluid delivery device initiates debonding of the carrier from the semiconductor device by weakening or loosening at least a portion of the adhesive. The system further includes a liftoff device configured to releasably engage the carrier and apply a debonding force to the carrier to complete debonding of the carrier from the semiconductor device.

A peeling apparatus includes an ingot holding unit holding an ingot in a hanging state where a portion of the ingot to be peeled off as the wafer is directed downwardly, a water container containing water therein, an ultrasonic unit immersed in the water in the water container, a moving unit moving the ingot holding unit vertically into a position where the ingot holding unit faces the ultrasonic unit and at least the portion of the ingot to be peeled off as the wafer is immersed in the water in the water container, and a nozzle ejecting water to the portion of the ingot to be peeled off as the wafer thereby to promote the peeling of the wafer from the ingot.

The present invention relates to a peeling bar, apparatus, and method for peeling a polarizing film from a panel. This invention can minimize friction between the peeling bar and the polarizing film since the peeled polarizing film is in contact with a main roller of the peeling bar. The radius of the main roller of the peeling bar and the inclined surface of the fixing unit are designed to minimize the Z-axis component of a shearing force applied to the polarizing film. Also, in order to equalize tension applied to the polarizing film in a peeling process, this invention makes both ends of the polarizing film closely adhere to the peeling bar. According to this invention, fracture of the polarizing film is prevented, and thereby the polarizing film can be stably peeled from the panel without fracture.

A starting point for separating a separation layer and a layer to be separated is formed in a process member. A first step of irradiating a first portion of the process member with first laser light in a frame-like shape and a second step of irradiating at least part of a region which is irradiated with the first laser light with second laser light are performed. The process member includes a first substrate, the separation layer, the layer to be separated, and an adhesive layer which are stacked in this order. In the first portion, the adhesive layer overlaps with the first substrate with the separation layer and the layer to be separated provided therebetween. In the first step, the first laser light is absorbed by at least the layer to be separated and the adhesive layer. In the second step, the second laser light is absorbed by at least the separation layer.

A method of debonding a temporarily adhesive-bonded carrier-workpiece pair employs a stream of a solvent at a high pressure. The carrier and the workpiece are bonded with an adhesive that is dissolvable in a selected solvent. The workpiece such as a device wafer may have been thinned and processed. The solvent is applied to the adhesive at a high pressure to debond and dissolve the adhesive with high throughput. The dissolved adhesive can be recycled and later reused, thus lowering the cost of the whole bonding and debonding process.

A method of debonding a temporarily adhesive-bonded carrier-workpiece pair employs a stream of a solvent at a high pressure. The carrier and the workpiece are bonded with an adhesive that is dissolvable in a selected solvent. The workpiece such as a device wafer may have been thinned and processed. The solvent is applied to the adhesive at a high pressure to debond and dissolve the adhesive with high throughput. The dissolved adhesive can be recycled and later reused, thus lowering the cost of the whole bonding and debonding process.