A method, apparatus and program product perform automatic load profiling to optimize a wrapping operation performed with a stretch wrapping machine. Automatic load profiling may be performed, for example, to determine a density parameter for a load that is indicative of load stability such that one or more control parameters may be configured for a wrapping operation based upon the density parameter. Automatic load profiling may also be performed, for example, to detect a load with a nonstandard top layer, e.g., a load with a top or slip sheet, a load with an easily deformable top layer, a load with a ragged top surface topography and/or a load with an inboard portion, such that a top layer containment operation may be activated during wrapping to optimize containment for the load.

Disclosed is stack support assembly. The stack support assembly includes at least one binding element to press and bind at least one support leg to a material stack; and at least one elongated and partially hollow support leg composed of a shaped polymer. The elongated and partially hollow support leg includes vertically oriented side walls connected to one another with a repeating pattern of interconnect structures, thereby forming hollowed channels extending between a top plane and a bottom plane of the support leg.

A packing method makes it possible to achieve, at a low cost, both reduction of a rise in temperature of a black-based foamed product and stacking stability. The packing method for a package includes the steps of setting, on a black-based foamed product that is stacked in one or more layers on a pallet, a cover board such that the cover board covers a main surface of an uppermost layer of the black-based foamed product, and covering, with a black-based stretch film, an outer periphery corresponding to side surfaces of the black-based foamed product.

A system for moving and transporting cargo, such as bundled cores and tubes, that doesn't require wheeled carts. The system may comprise a forklift truck, a front engagement device connecting the cargo to the forklift truck, a rear roller unit, and one or more spaced apart bottom supports. When the forklift forks are in the raised position, the cargo front (leading) end is tilted above the cargo rear (trailing) end and the bottom supports are disengaged from the floor, allowing the cargo to be moved.

A bundle of tubular and/or rod-shaped glass articles is provided that includes a longest dimension, a plurality of layers (N.sub.L) of the glass articles, and a thread-like element. The longest dimension extends in a first direction. The glass articles in each layer are arranged side by side in a second direction. The plurality of layers are arranged side by side in a third direction. The first, second, and third directions being perpendicular to one another. The thread-like element is around two of the glass articles in at least one layer so that the two glass articles are spaced apart.

A method for unpacking a bundle of tubular and/or rod-shaped glass articles has the steps of holding the bundle in a locked position and pulling a thread-like element that is wrapped around the glass articles so that the thread-like element is withdrawn from the bundle. The bundle includes a longest dimension, layers (N.sub.L) of the glass articles, and the thread-like element. The longest dimension extends in a first direction. The glass articles in each layer are arranged side by side in a second direction. The layers are arranged side by side in a third direction. The first, second, and third directions are perpendicular to one another. The thread-like element is around two of the glass articles in at least one layer so that the two glass articles are spaced apart. The thread-like element has a cross section between at least 0.25 mm and at most 4.0 mm.

The present invention is a package having strengthened, reinforced lines of weakness. More particularly, the package, in its fully formed configuration, provides for a self-reinforced package and strengthened, reinforced lines of weakness for stacking and transport wherein the package is resistant to fracture at its lines of weakness due to jostling of its contents against the inside of the package and at its lines of weakness.

According to some embodiments, systems and methods for applying labeling or indicia upon expandable slit sheet cushioning material is provided, including, in some examples, a) providing one or more unslit region within the expandable slit sheet material, b) providing one or more label or the like that is adhered or connected to a region of the expandable slit sheet material, and/or c) providing an over-layer sheet around the expandable slit sheet material.

A pallet assembly including a plurality of trays separated by supports is provided. Each of the supports includes a rectangular portion and a wing portion. The wing portion is formed from two layers of materials connected together by a locking tab or other suitable means. The wing portion can include a first portion and a second portion at an angle with respect to the first portion. A tab can be used to facilitate placing the first portion of the wing at the angle with respect to the second portion of the wing.

According to some embodiments, systems and methods for applying labeling or indicia upon expandable slit sheet cushioning material is provided, including, in some examples, a) providing one or more unslit region within the expandable slit sheet material, b) providing one or more label or the like that is adhered or connected to a region of the expandable slit sheet material, and/or c) providing an over-layer sheet around the expandable slit sheet material.