A packaging method of heat spreaders includes the following steps. Arrange a plurality of heat spreaders and a plurality of gaskets alternately to a container, wherein at least one of the gaskets is arranged between any immediately-adjacent two of the most adjacent heat spreaders. Remove all of the gaskets from the container at the same time. A packaging box suitable for this packaging method is also provided.

Packaging may include cushioning components. Cardboard corrugate cushioning elements may be configured with a folded cardboard spring, lateral stability wrap, and stiffening element. The cushioning components may include mechanical bends formed as creases, that provide resistance to deformation, thereby allowing the cushioning component to absorb impact and vibration, and replacing the need for less environmentally friendly cushioning, such as expanded polystyrene or foam cushioning.

Packaging may include cushioning components. Cardboard corrugate cushioning elements may be configured with a folded cardboard spring, lateral stability wrap, and stiffening element. The cushioning components may include mechanical bends formed as creases, that provide resistance to deformation, thereby allowing the cushioning component to absorb impact and vibration, and replacing the need for less environmentally friendly cushioning, such as expanded polystyrene or foam cushioning.

A tray assembly includes a base tray, and an anti-slip pad disposed on the base tray, wherein the anti-slip pad has a friction coefficient in a range of about 0.5 to about 20 based on ASTM D1894, and a surface resistance in a range of about 10{circumflex over ( )}6 Ω/cm.sup.2 to about 10{circumflex over ( )}9 Ω/cm.sup.2 based on ASTM D257, and the anti-slip pad includes at least one of a thermoplastic olefinic elastomer (TPO), natural rubber, styrene-butadiene rubber (SBR), and polypropylene (PP).

A tray assembly includes a base tray, and an anti-slip pad disposed on the base tray, wherein the anti-slip pad has a friction coefficient in a range of about 0.5 to about 20 based on ASTM D1894, and a surface resistance in a range of about 10{circumflex over ( )}6 Ω/cm.sup.2 to about 10{circumflex over ( )}9 Ω/cm.sup.2 based on ASTM D257, and the anti-slip pad includes at least one of a thermoplastic olefinic elastomer (TPO), natural rubber, styrene-butadiene rubber (SBR), and polypropylene (PP).

A container (100) having: a housing member (10) having a bottom surface member (12) and a side surface member (14); and a protective member (220a) having a receiving surface in contact with an item to be housed. The bottom surface member defines the xy plane and the side surface member defines the xz plane and the yz plane that are orthogonal to the xy plane. The side surface member has a cut-out section (15a) that faces a housing space. The protective member (220a) has: an inside member (122a) comprising a receiving section having first receiving surface (123) parallel to the yz plane and a second receiving surface (124) parallel to the xz plane; and an outside member (232a) arranged at least between the inside member and a side surface parallel to the yz plane of the side surface member, said outside member being fitted to the inside member (122a) so as to be slidable in a direction intersecting the floor surface. The inside member (122a) and the outside member (232a) are arranged in the cut-out section so as to each be independently attachable and detachable. A section including the first receiving surface (123) is more flexible than a section including the second receiving surface (124).

The fluid container has a first and second flexible membrane forming at least one chamber, a channel configured to receive pressurized inert gas, and one or more check valve assemblies disposed therebetween. The one or more check valve assemblies is formed from a continuous third flexible membrane folded at an apex, and configured to provide the flow of pressurized fluid in one direction upon inflation, from the channel to the at least one chamber, while restricting flow in the opposite direction. The one or more check valve assemblies are characterized in that they do not require pre-printing or electronic registering, thus allowing for an inflation flow rate of at least twice that of conventional inflatable packaging systems.

A cargo net anchor guard mountable to an aircraft's cargo hold wall adjacent to an anchor clip assemblies. The cargo net anchor guard is configured to block cargo from impacting at least the anchor clip assembly. The cargo net anchor guard has a ramped deflection surface that can deflect moving cargo inwardly away from the wall and into the cargo net substantially without impacting the anchor clip assembly.

Provided is a cushion, including a cushion body, a first antislip film and a second antislip film, wherein a first surface of the first antislip film is connected to a first surface of the cushion body; a first surface of the second antislip film is connected to a second surface of the cushion body; the first surface of the cushion body is opposite to the second surface of the cushion body; and a second surface of the first antislip film and a second surface of the second antislip film are configured to respectively abut surfaces of two objects spaced apart by the cushion. A transportation protective device is also provided.

A system for managing containers includes a server, a portable electronic device and a check apparatus. The server stores a piece of transaction data. The portable electronic device is configured to receive the piece of transaction data from the server, to determine whether a shaking criterion is met based on acceleration of the portable electronic device, and to display a barcode corresponding to the piece of transaction data when the shaking criterion is met. The portable electronic device is further configured to capture an image and send the image to the server. The check apparatus is configured to read and decode the barcode, and to display information relating to the piece of transaction data based on data encoded in the barcode.