The embodiments provide a rugged enclosure for an external drive. The enclosure is configured to provide shock protection and protect the external drive from contaminants. The enclosure may be provided with a set of cushions and spacers to accommodate different sizes and types of external drives. In addition, the enclosure may comprise a port that allows for use of the external drive while enclosed. Furthermore, the enclosure may comprise a retaining feature like a loop or lanyard that allows the enclosure to be easily transported and secured.

Puncturing of plastic bags containing polysilicon chunks during transport thereof and reduction of fines generation are minimized by use of a transport vessel containing at least two plastic bags containing polysilicon chunks with a packing density of greater than or equal to 500 kg/m.sup.3.

A shipping system for shipping planar substrates includes a plurality of planar substrates stacked to form a pack and a plurality of interleaving material including substantially spherical beads positioned between the substrates of the pack and configured to carry a load. Substantially all of the beads have a diameter within 25% of D.sub.max, where D.sub.max is a diameter corresponding to a size of an opening of an upper limit sieve used in the shipping system. Also disclosed are a spacer for use in a shipping system for shipping planar substrates, a wrapped system for shipping planar substrates, a method of wrapping a system for shipping planar substrates, and a powder applicator.

A method for forming a structural wall section by sandwiching a corrugated metal panel between correspondingly corrugated EPS inner and outer panels. Also disclosed is a structural wall formed from a corrugated metal wall sandwiched between inner and outer EPS panels with a corrugated side on each of the EPS panels engaged with the corrugated metal panel.

A method of making an airdam to be placed along the edge of a composite work piece during a curing process is disclosed. The method comprises forming a strip of peel ply, forming a strip of tacky putty, and automatically affixing the strip of tacky putty to the strip of peel ply without human assistance to form a laminate comprising at least one layer of peel ply and at least one layer of tacky putty.

A seal layer of a gland packing is a tubular portion containing fluororesin, whose outer periphery is in closely contact with an inner periphery of a stuffing box, and whose inner periphery is in closely contact with an outer periphery of a movable shaft of a fluid device. One or more protective layers of the gland packing are annular portions containing no fluororesin. The protective layers cover at least an atmosphere-side axial end surface of the seal layer to prevent oxygen and moisture from entering the seal layer.

A foam packaging assembly for protecting an article includes one or more pads including at least one corner pad and at least one side pad disposed between the corner pads, a packaging container configured to receive the article or an inner box storing the article, and a configurator determining one or more dimensions of the container based on at least one input variable of the article or the inner box. The configurator further determines a number of the pads for placement inside the container such that the article with the pads is protected during storage or transport. Further, the foam packaging assembly includes at least one insert board configured for placement over the article inside the container, and the configurator determines one or more dimensions of the insert board when the insert board is selected to be disposed inside the container.

A shipping system for shipping planar substrates includes a plurality of planar substrates stacked to form a pack and a plurality of interleaving material including substantially spherical beads positioned between the substrates of the pack and configured to carry a load. Substantially all of the beads have a diameter within 25% of D.sub.max, where D.sub.max is a diameter corresponding to a size of an opening of an upper limit sieve used in the shipping system. Also disclosed are a spacer for use in a shipping system for shipping planar substrates, a wrapped system for shipping planar substrates, a method of wrapping a system for shipping planar substrates, and a powder applicator.

A shipping system for shipping planar substrates includes a plurality of planar substrates stacked to form a pack and a plurality of interleaving material including substantially spherical beads positioned between the substrates of the pack and configured to carry a load. Substantially all of the beads have a diameter within 25% of D.sub.max, where D.sub.max is a diameter corresponding to a size of an opening of an upper limit sieve used in the shipping system. Also disclosed are a spacer for use in a shipping system for shipping planar substrates, a wrapped system for shipping planar substrates, a method of wrapping a system for shipping planar substrates, and a powder applicator.

A shipping system for shipping planar substrates includes a plurality of planar substrates stacked to form a pack and a plurality of interleaving material including substantially spherical beads positioned between the substrates of the pack and configured to carry a load. Substantially all of the beads have a diameter within 25% of D.sub.max, where D.sub.max is a diameter corresponding to a size of an opening of an upper limit sieve used in the shipping system. Also disclosed are a spacer for use in a shipping system for shipping planar substrates, a wrapped system for shipping planar substrates, a method of wrapping a system for shipping planar substrates, and a powder applicator.