A method for manufacturing a capacitor element includes singulating a mother block into a plurality of laminate blocks having a shape of an elongated, substantially rectangular parallelepiped, by dividing the mother block in rows; rolling each of the plurality of laminate blocks; and singulating each of the plurality of laminate blocks into a plurality of laminate chips having a shape of a substantially rectangular parallelepiped, by dividing the plurality of laminate blocks after rolling in columns. The step of rolling each of the plurality of laminate blocks includes the step of moving the plurality of laminate blocks placed on a stage, along a direction in which the plurality of laminate blocks are arranged side by side, thereby sequentially pushing each of the plurality of laminate blocks to an end portion of the stage and causing each of the plurality of laminate blocks to rotationally fall from the end portion.

A windshield protective device having a notch for accommodating a radars, sensors, and RFID transponders, a protective top layer that is removable and prevents damage to the windshield protective device during transportation and installation, a clear tempered glass layer that provides strength and durability, an optical PET film that enhances the visibility and clarity of the windshield, a silicon adhesive layer that adheres the windshield protective device to the windshield without leaving any residue, and a protective backing that covers the adhesive layer until it is ready to be applied. The windshield protective device protects the windshield from scratches, cracks, chips, and other damages caused by road debris, weather conditions, or vandalism.

A method for manufacturing an ophthalmic element that comprises a vision base element (12) and a film structure (14) adhered to said vision base element allows limiting or suppressing wrinkles and delaminations. This method implements an auxetic part (27) within a sacrificial film portion (26) that belongs initially to the film structure. In this way, stresses generated in a useful area (24) of the film structure by the sacrificial film portion are reduced. The sacrificial film portion is then removed so that only the useful area of the film structure remains in the ophthalmic element.

The present invention relates to a flexible membrane lid for a container comprising a top paper layer which is perforated to form a perimeter of at least one peelable portion and a bottom film layer. In some embodiments, the bottom film layer is partially adhered to the top paper layer, wherein the layers are not adhered within the perimeter of the peelable portion. In other embodiments, the layers are adhered with a pressure sensitive adhesive within the perimeter of the peelable portion and with a permanent adhesive in the remainder of the area between the top paper layer and bottom film layer. In other embodiments, the invention relates to a flexible membrane lid for a container comprising a top paper layer comprising a pull tab and a bottom film layer which is removably adhered to the top paper layer, wherein bottom film layer comprises a separate pull tab.

A carpet tile having a greige good, an adhesive layer, and a secondary backing material. The greige good has a primary backing component and a plurality of fibers attached to the primary backing component. The adhesive layer has an adhesive composition and a reinforcement material that is at least partially embedded within the adhesive composition. The adhesive layer is applied to a back surface of the primary backing component. The secondary backing material is adhered to the primary backing component by contact with a portion of the adhesive composition that flows through the reinforcement material. The reinforcement material and the secondary backing material are co-laminated onto the adhesive composition.

This invention relates to a process for the division of an individual input source log into discrete longitudinal lengths for subsequent processing. The process comprises receiving an individual input source log, dividing the input source log into one or a plurality of output log portions of a predetermined length, wherein at least a portion of said output log portions resultant from said division are of a substantially equal or substantially constant or consistent longitudinal length, and wherein said substantially equal or substantially constant or consistent longitudinal length output log portions are procured as a feed stream of log material for a subsequent processing step. This process provides for the processing of logs and subsequent assembly into an end product formed from a composite of sticks derived from said processed logs.

The present disclosure relates to methods and apparatuses for stretching, transferring, and bonding elastic parts under tension to an advancing carrier substrate during the assembly of absorbent articles. A continuous carrier substrate may be advanced in a machine direction at a first speed, and a discrete elastic part may be cut from a continuous elastic substrate having a direction of stretch in a cross direction. The speed of the discrete elastic part is changed from a second speed to the first speed, and the central region of the discrete elastic part is stretched in the cross direction. The discrete elastic part is bonded with the continuous carrier substrate such that the stretched central region extends in the cross direction between the first and second longitudinal edges of the continuous carrier substrate. The discrete elastic part may also be bonded with the carrier substrate with adhesive and/or mechanical bonds.

A device for joining multi-layered panels made of individual boards has a height-adjustable workbench. layers of boards arranged at an angle to each other and joined together. A guide for the material is provided at least on one side of the workbench, preferably on two adjoining sides. The device comprises at least one transport device for transporting boards to the processing position.

A lamination apparatus is adapted to laminate an encapsulation glue and a panel. The lamination apparatus includes a lower mold, an upper mold, and a cutting knife. The lower mold has a lamination area and a peripheral area adjacent to the lamination area. The panel is adapted to be retained in the lamination area. The upper mold is movable close to or away from the lower mold, and includes an encapsulation glue fixing part. The encapsulation glue fixing part is adapted to fix the encapsulation glue to the upper mold. The cutting knife is disposed in the peripheral area of the lower mold, and is located in a horizontal direction between the lamination area of the lower mold and the encapsulation glue fixing part of the upper mold. In addition, a lamination method is also disclosed.

A garment fabric S includes a multilayer structure including a first layer L1 having breathability and a second layer L2 formed by mixing a treatment agent with a defibrated fiber.