A multiple-ply label roll includes end-to-end labels. Each label is operable to be adhesively applied to a substrate and includes top and bottom label plies. The bottom label ply includes an outer removable border portion defined between interior and outer ply edges and removable from the top label ply in a removal direction. The interior ply edge includes spaced apart side edges that extend along the removal direction to define a pair of spaced apart side sections of the removable portion. The interior ply edge includes a generally transverse end edge interconnecting the side edges to define an end section of the removable portion, with the end section extending between the side sections and being removed generally after the side sections when the removable portion is removed in the removal direction.

The invention provides a polyolefin pre-stretched packaging film comprising perforations arranged in a series of columns along a longitudinal direction of the film, wherein each adjacent column of said perforations is separated by a column without perforations along the longitudinal direction, and the perforations are staggered in a transverse direction across the film, wherein said film comprises an inherent cling surface on at least one of its surfaces; wherein the perforations cover at least 25% of the total surface area of the film, and the film has an inside/inside cling property of 5 to 22 gr, and a weight of no more than 13 g/m2.

A label includes a first section and a second section that is attached to the first section. The first section includes a panel. The panel includes one or more sides that are detachable from the first section.

The present invention provides an electromagnetic wave blocking storage article. The electromagnetic wave blocking storage article includes: a wallet body part configured such that a storage pocket is formed therein; and an electromagnetic wave blocking part configured to be formed in a plate shape, to be embedded in the storage body part, and to block electromagnetic waves transferred from the outside of the storage body part.

A wrapping material is provided comprising a plurality of wrapping units, each said wrapping unit having a leading edge at one of thereof and a tail edge at an opposing edge thereof, where each one of said plurality of wrapping units is serially connected to at least one other of said plurality of wrapping units at the corresponding leading edge, tail edge, or both. In a further embodiment, discrete adhesive areas are disposed on the first surface of said plurality of wrapping units. In a still further embodiment, the discrete adhesive areas are covered by a protective cover, wherein the protective cover is attached to the first surface of the next said serially connected wrapping unit.

Embossed multi-ply fibrous structures and methods for making such embossed multi-ply fibrous structures are provided.

A method includes performing a contrast enhanced computed tomography (CT) scan of tissue of interest of a subject, with an imaging system (100) having a radiation source (112) and a detector array (118), in which a peak contrast enhancement of the tissue of interest, a full range of motion of the tissue of interest, and an entire volume of interest of the tissue of interest are concurrently imaged during a single rotation of the radiation source and the detector array of the imaging system over an entire or a predetermined sub-portion of a breathing cycle.

A device for easily unwrapping a package forming a personalized pattern in the paper is provided. The device includes a first adhesive elongated strip layer, comprising: a first and second horizontal elongated edges having first and second ends; and first and second vertical side edges extending between the first and second horizontal elongated edges. Further included is a second adhesive elongated strip layer separated from the first adhesive layer by a gap, the second adhesive layer elongated strip, comprising first and second horizontal elongated edges each having first and second ends and first and second vertical side edges extending between the horizontal elongated edges. A first non-adhesive strip layer placed over the gap, a tearing thread located on the first non-adhesive strip layer; and a second non-adhesive strip layer located on top of the tearing thread and the first non-adhesive strip layer.

A multiple-ply label roll includes end-to-end labels. Each label is operable to be adhesively applied to a substrate and includes top and bottom label plies. The bottom label ply includes an outer removable border portion defined between interior and outer ply edges and removable from the top label ply in a removal direction. The interior ply edge includes spaced apart side edges that extend along the removal direction to define a pair of spaced apart side sections of the removable portion. The interior ply edge includes a generally transverse end edge interconnecting the side edges to define an end section of the removable portion, with the end section extending between the side sections and being removed generally after the side sections when the removable portion is removed in the removal direction.

Processes of chamfering and/or beveling an edge of a glass or other substrate of arbitrary shape using lasers are described herein. Three general methods to produce chamfers on glass substrates are disclosed. The first method involves cutting the edge with the desired chamfer shape utilizing an ultra-short pulse laser. Treatment with the ultra-short laser may be optionally followed by a CO.sub.2 laser for fully automated separation. The second method is based on thermal stress peeling of a sharp edge corner, and it has been demonstrated to work with different combination of an ultrashort pulse and/or CO.sub.2 lasers. A third method relies on stresses induced by ion exchange to effect separation of material along a fault line produced by an ultra-short laser to form a chamfered edge of desired shape.