An automatic-control wet paper molding machine and a method for performing the same are introduced herein. The machine comprises a frame, a programmable control unit, at least one movable device, a first dredging-pulp operation section, a second dredging-pulp operation section and a thermo-compression forming operation section. The programmable control unit programmably controls the at least one movable device on sequent actuations, including firstly implementing synchronously dredging-pulp operations of the first and second dredging-pulp operation sections to respectively form a first pulp layer and second pulp layer; moving the first pulp layer to locate in the thermo-compression forming operation section and then moving the second pulp layer to overlap above the first pulp layer; and then implementing a thermo-compression on the overlapped first and second pulp layers to incorporate with each other to form a semi-finished product.

A method of processing a substrate, with a first major surface of the substrate removably bonded to a first major surface of a first carrier and a second major surface of the substrate removably bonded to a first major surface of a second carrier, includes initiating debonding at a first location of an outer peripheral bonded interface between the substrate and the first carrier to separate a portion of the first carrier from the substrate. The method further includes propagating a first debond front from the first debonded location along a first direction extending away from the first debonded location by sequentially applying a plurality of lifting forces to the first carrier at a corresponding plurality of sequential lifting locations of the first carrier.

Methods of manufacturing electrochromic windows are described. Insulated glass units (IGU's) are protected, e.g. during handling and shipping, by a protective bumper. The bumper can be custom made using IGU dimension data received from the IGU fabrication tool. The bumper may be made of environmentally friendly materials. Laser isolation configurations and related methods of patterning and/or configuring an electrochromic device on a substrate are described. Edge deletion is used to ensure a good seal between spacer and glass in an IGU and thus better protection of an electrochromic device sealed in the IGU. Configurations for protecting the electrochromic device edge in the primary seal and maximizing viewable area in an electrochromic pane of an IGU are also described.

Methods and systems according to one or more examples are provided for laminating composite materials. In one example, a method comprises receiving a first layer material and a second layer material at a nip roller assembly and laminating, by the nip roller assembly, the first and second layer material to provide a laminated composite material comprising a main portion and at least one edge portion. The method further comprises delaminating the at least one edge portion of the laminated composite material to provide a partially laminated composite material for use in manufacturing a composite product.

Processes for forming cosmetically appealing edges on laminated fabric structures are described. The methods involve a laser cutting process that includes in-process melting of polymer material within the laminated fabric so as to coat fibers of the laminated fabric. The resultant cut laminated fabric has a cosmetic edge that has no exposed fibers. The laser cutting and melting can be performed in a single laser cutting operation, making it well suited for integration into manufacturing product lines.

According to an embodiment of the present disclosure, a method of labeling a plurality of products includes coating a pressure sensitive adhesive to a roll of face stock, the roll of face stock configured to be converted to a plurality of individual labels aligned in a single lane; singulating an individual label from the roll of face stock; and applying the individual label to a product of the plurality of products, wherein the coating, singulating and applying are conducted sequentially in a single continuous operation with a single continuous web of material.

A ready-made wrapper that can be used at home to wrap an article such as a snack bar and a method of making same is provided. The wrapper is a precision scored laminate comprising a flexible bottom layer adhered to a flexible top layer at least in part by a pressure sensitive adhesive (PSA). In one embodiment the bottom layer is scored so that one or more peripheral portions of the bottom layer can be removed and discarded, leaving a wrapper having an adhesive perimeter. After an article is placed in the center of the wrapper, the wrapper can be folded around the article to create an airtight package.

Processes for forming cosmetically appealing edges on laminated fabric structures are described. The methods involve a laser cutting process that includes in-process melting of polymer material within the laminated fabric so as to coat fibers of the laminated fabric. The resultant cut laminated fabric has a cosmetic edge that has no exposed fibers. The laser cutting and melting can be performed in a single laser cutting operation, making it well suited for integration into manufacturing product lines.

According to an embodiment of the present disclosure, a method of labeling a plurality of products includes coating a pressure sensitive adhesive to a roll of face stock, the roll of face stock configured to be converted to a plurality of individual labels aligned in a single lane; singulating an individual label from the roll of face stock; and applying the individual label to a product of the plurality of products, wherein the coating, singulating and applying are conducted sequentially in a single continuous operation with a single continuous web of material.

A method of manufacturing a display device includes forming a preliminary display panel including a light-emitting element on a substrate, and having a first dummy area at an outermost portion, attaching a preliminary support member under the preliminary display panel and having a second dummy area overlapping the first dummy area, removing an edge portion of the preliminary support member positioned around the second dummy area by irradiating a laser onto the preliminary support member, and forming a display panel and a support member having an end surface positioned on a virtual plane including an end surface of the display panel by irradiating another laser onto the preliminary support member, and by concurrently removing the first dummy area of the preliminary display panel and the second dummy area of the preliminary support member.