Abstract: Disclosed herein is a method comprising filling a retort pouch with molten material, folding the top of the pouch over near or at the molten material line to expel air from the pouch, and sealing the pouch. Also disclosed herein is a molten material and package combination.

Abstract: An adhesive composition, which comprises either an A- or B-side epoxy, and further includes a plurality of microspheres blended into either the A-side epoxy alone, the B-side epoxy alone, or into both. The microspheres of the invention are preferably made of a thermoplastic shell. As a result of the use of this adhesive between two substrates, a thin, strong bond may be formed between those two substrates. The bond is formed by a combination of an epoxy and a plurality of the microspheres. This epoxy and microsphere combination substantially inhibits seepage of the epoxy through the holes in a first, porous substrate.

Abstract: A corrosion inhibiting composition, comprising 20%-65% (wt.) of a wax; 10.0%-31.0% (wt.) of an oil; and 4.0%-16.0% (wt.) of a active calcium sulfonate. The wax of the corrosion inhibiting composition is preferably a microcrystalline wax, and may be at least partially obtained from petrolatum. Up to 6.0% polypropylene may also be used, either alone or in combination with up to 6.0% polyethylene. The corrosion inhibiting composition may also include SEBS rubber, in an amount of 2.0% to 6.0%.

Abstract: A hot melt corrosion inhibiting coating composition for application to chassis components and other heavy metal parts of transportation vehicles. The composition has superior adhesive wearability, coating uniformity and high temperature handleability and stability.