A shock and vibration isolation assembly for absorbing the energies generated from movement of a product carried thereon includes a pallet or a lower panel having an upper surface, an upper panel above the upper surface, the upper panel configured to support the product or a pallet thereon. The assembly further includes a plurality of flexible visco-elastic rings affixed to at least one of said upper surface of said pallet or lower panel and a facing surface of the upper panel. A frame member disposed between and affixed to the upper surface of the pallet or lower panel and the upper panel to seal the space therebetween. The frame member encircles the plurality of flexible rings and is formed of a resilient substantially liquid-impermeable material.

A supply of cushioning material for wrapping at least one object comprises a stack formed of a multitude of prefabricated sheets of three-dimensional cushioning material. The invention proposes that adjacent sheets are connected to each other by means of a releasable adhesive system, the adhesive system being designed such that the connection can be released without auxiliary means, i.e. without special heat exposure and without chemicals and without special tools simply by mechanical action, and non-destructively, i.e. without damaging the cushioning material.

A deposition mask package according to the present embodiment includes a receiving portion, a lid portion that faces the receiving portion, a deposition mask that is arranged between the receiving portion and the lid portion and has an effective region in which a plurality of through-holes is formed. The receiving portion has a first opposing surface facing the lid portion and a concave portion provided on the first opposing surface. The concave portion is covered by a first flexible film. The effective region of the deposition mask is arranged on the concave portion with the first flexible film interposed therebetween.

A machine for making insulation may include two or more rotatory members configured to pull a precut insulation product at a first rate, wherein the precut insulation product comprises a first paper layer, a second paper layer, and a continuous paper core sheet, a first restraint and a second restraint spaced apart a predetermined distance to create a first space therebetween, and two or more second rotary members configured to feed a continuous paper sheet at a second rate into the first space such that the continuous paper sheet forms a plurality of flexible loops defining a plurality of air channels that extend in a direction that is substantially perpendicular with a machine direction. The first rate may be slower than the second rate.

A sheeting, including: an upper recyclable plastic layer; a lower recyclable plastic layer; a recyclable fluted plastic layer, interposed between the upper and lower layers; at least one of the upper or lower layers comprising: a printable BOPP sublayer; a base sublayer comprising a PE plastic, a bioplastic/compostable plastic, or a PP plastic; the fluted layer comprises a PE plastic, or a bioplastic/compostable plastic, a or PP plastic; the BOPP sublayer is layered to the base sublayer with an intermediate liquid laminating LDPE material; at least one of the upper or lower layers includes a metallised film sublayer, the metallised BOPP sublayer having a thickness between about 15 microns and about 50 microns; and the metallised upper or lower layer further includes a closed cell PE foam sublayer, layered to the metallised layer, the foam sublayer having a thickness between about 1 mm to 10 mm.

In the preferred embodiments, the present invention provides substantially improved slit sheet cushioning products by advantageously combining novel paper properties with novel slit patterns for improved features and characteristics. In some illustrative and non-limiting example embodiments, cushioning products of the present invention can include, e.g., a novel slit sheet material in combination with extensible paper employed as, e.g., a cushioning pad or as cushioning within an envelope product, wherein the cushioning product can be substantially more resilient, but, yet, e.g., thinner for better utilization of space.

A deposition mask package according to the present embodiment includes a receiving portion, a lid portion that faces the receiving portion, a deposition mask that is arranged between the receiving portion and the lid portion and has an effective region in which a plurality of through-holes is formed. The receiving portion has a first opposing surface facing the lid portion and a concave portion provided on the first opposing surface. The concave portion is covered by a first flexible film. The effective region of the deposition mask is arranged on the concave portion with the first flexible film interposed therebetween.

A first aspect of the present invention is a constant force compression construct, comprising: (a) a plurality of compressible layers, each compressible layer comprising a plurality of interconnected flexible struts configured as a regular hexagonal lattice of repeating unit cells, with the layers spaced apart from one another, and with the unit cells of each layer aligned with one another; and (b) a plurality of beams interconnecting each of the compressible layers with each respective adjacent compressible layer to form a three-dimensional lattice having an upper portion, a lower portion, and a compressible region therebetween, with the repeating unit cells contained in the compressible region.

A buffer material including a skinned polyurethane foam including a foam layer and a skin layer formed on the surface of the foam layer, wherein the skinned polyurethane foam essentially contains no silicone compound, the foam layer is polyurethane foam, the skin layer is a polyurethane resin layer produced by reaction of a skin-isocyanate component containing an aliphatic and/or an alicyclic polyisocyanate with a skin-active hydrogen group-containing component, the skin layer has a storage modulus at 23 C. (E.sub.coat) of 110.sup.7 Pa or more and 310.sup.8 Pa or less, the foam layer has a storage modulus at 23 C. (E.sub.foam) of 110.sup.5 Pa or more and 510.sup.6 Pa or less, and the ratio (E.sub.coat/E.sub.foam) of the storage modulus at 23 C. (E.sub.coat) of the skin layer relative to the storage modulus at 23 C. (E.sub.foam) of the foam layer is 10 or more and 500 or less.

An air cushioning material includes: a belt-like part between a first and second air cells into which air is sealed, wherein side edges of the first and second air cells are connected to each other via the belt-like part; and an air flow passage that is formed in the belt-like part and communicates the first and second air cells, wherein at least a part including the air flow passage in the belt-like part is in a shape folded in a way from the first air cell to the second air cell.