Disclosed is an apparatus. The apparatus includes a reel, a carrier tape wrapped about the reel and a cover tape disposed over the carrier tape. The cover tape and the carrier tape are configured to contain a plurality of electronic components, e.g., integrated circuits. At least one of the carrier tape and the cover tape is made of desiccant entrained polymer, or has desiccant entrained polymer provided on it.

A standing clip for supporting an object in an upright position includes a flexible grip having an upper lever arm, a lower lever arm, and first and second support legs. The first support leg extends from the upper lever arm at a second end of the flexible grip, and the second support leg extends from the lower lever arm at the second end of the flexible grip. The first and second support legs include complimentary clamping surfaces configured for clamping the object therebetween, and are spaced apart from each other by a gap. The flexible grip is depressible from a first state in which the gap is a first size to a second state in which the gap is a second size. The first and second support legs are oriented substantially vertically in the second state to clamp and suspend the object above a desired surface.

An equipment containment and transport assembly (20) includes an open-top equipment-receiving primary bag (22) having upstanding sidewall structure (26) equipped with lifting lug opening pairs (30, 32), and a bottom wall (28). The assembly (20) further has a flexible sleeve (24), which is secured to the sidewall structure (26) and is shiftable between a ready position surrounding the sidewall structure (26) and a deployed position extending upwardly for closure or the assembly (20). When deployed, the sleeve (24) covers the lug opening pairs (30, 32). The assembly (20) is particularly useful for containment and shipping of electrical transformers.

This cover tape has at least a base layer and a heat seal layer, wherein the heat seal layer contains a copolymer (A) of a styrene-based hydrocarbon and a conjugated diene-based hydrocarbon, the component (A) contains a block copolymer (A-1) of 10% by mass or more and less than 50% by mass of a styrene-based hydrocarbon and more than 50% by mass and 90% by mass or less of a conjugated diene-based hydrocarbon, and a block copolymer (A-2) of 50% by mass or more and 95% by mass or less of a styrene-based hydrocarbon and 5% by mass or more and 50% by mass or less of a conjugated diene-based hydrocarbon, a content of the component (A-1) is 35 to 60% by mass based on a total amount of the heat seal layer, and a mass ratio of the component (A-2) to the component (A-1) is 0.30 to 1.0.

A cushion package box includes a box body, a first cushion member and at least one paper tube. The first cushion member is disposed in the box body and has a porous structure. An opening direction of the porous structure is different from an opening direction of the at least one paper tube. The at least one paper tube is disposed in the box body and in contact with the first cushion member.

A battery packaging material including a laminate that is provided with a barrier layer, a heat-fusible resin layer positioned on one surface side of the barrier layer, and a polyester film positioned on the other surface side of the barrier layer. When the infrared absorption spectrum on the surface of the polyester film in 18 directions at intervals of 10° from 0° to 180° is obtained using the total reflection method of Fourier transform infrared spectroscopy, the ratio (surface orientation degree, Y.sub.max/Y.sub.min) of the maximum value Y.sub.max and the minimum value Y.sub.min of the ratio (Y.sub.1340/Y.sub.1410) of the absorption peak intensity Y.sub.1340 in 1340 cm.sup.−1 and the absorption peak intensity Y.sub.1410 in 1410 cm.sup.−1 in the infrared absorption spectrum is in the range of 1.4-2.7.

A tray including a plate-shaped portion for arranging a plurality of prismatic honeycomb structures having an outer peripheral side surface and partition walls provided on an inner peripheral side of the outer peripheral side surface, the partition walls partitioning a plurality of cells forming flow paths from a first end surface to a second end surface, the plate-shaped portion including: a plurality of corrugated plate-shaped placing portions for placing the prismatic honeycomb structures with the outer peripheral side surface in contact with the placing portions; flat plate-shaped non-placing portions adjacent to each of the corrugated plate-shaped placing portions; and partition walls erected between adjacent corrugated plate-shaped placing portions to prevent the outer peripheral side surfaces of adjacent prismatic honeycomb structures from contacting each other.

A tray for holding a plurality of storage drives includes a sheet of material formed to include: a plurality of tray sidewalls, each having a top edge and a bottom edge; a plurality of tray ends walls arranged relative to the plurality of tray sidewalls to define a plurality of corner regions, each tray end wall having a top edge and a bottom edge; at least one side extension included in each of the tray sidewalls; at least one corner extension included in a corner region; and a tray top spanning the tray sidewalls and the tray ends walls. The tray top includes a pair of top-side surfaces that extend inward from the top edge of a respective one of the tray sidewalls, and a central slotted structure spanning the top-side surfaces. The central slotted structure forms a plurality of slots, each configured to receive one of the plurality of storage drives.

A tray for holding a plurality of storage drives includes a sheet of material formed to include: a plurality of tray sidewalls, each having a top edge and a bottom edge; a plurality of tray ends walls arranged relative to the plurality of tray sidewalls to define a plurality of corner regions, each tray end wall having a top edge and a bottom edge; at least one side extension included in each of the tray sidewalls; at least one corner extension included in a corner region; and a tray top spanning the tray sidewalls and the tray ends walls. The tray top includes a pair of top-side surfaces that extend inward from the top edge of a respective one of the tray sidewalls, and a central slotted structure spanning the top-side surfaces. The central slotted structure forms a plurality of slots, each configured to receive one of the plurality of storage drives.

An electronic component package includes an electronic component storage container including a main body with recesses to store electronic components positioned along a longitudinal direction of the main body and including openings on one side in a height direction of the main body, a cover sheet to cover the openings of the recesses and removably attached to the main body, and a cover positioned such that the cover sheet is between the cover and the main body, and electronic components stored in the recesses of the electronic component storage container, the electronic component package has a volume filling rate of the electronic components in at least one of the recesses of about 50% or higher.