Abstract: An expansion device for doing work comprised of a housing including first and second selectively expandable sections defining an internal chamber which contains a chemical motor. Upon activation of the chemical motor, the first and second chamber are driven apart with sufficient force to allow the device to do work. The chemical motor is generally an irreversible reaction which causes the expansion device to be maintained in an expanded position.

Abstract: Process for recycling flexible foams by glycolysis and extraction. The glycolysis is conducted by allowing the foam to react with low molecular weight polyols, then allowing the mixture to separate in two phases.

Abstract: Process for recycling flexible foams by glycolysis and extraction. The glycolysis is conducted by allowing the foam to react with low molecular weight polyols, then allowing the mixture to separate in two phases.

Abstract: A two-part for reinforcing a hollow strucutral members and its method of use are provided. A method of reinforcing a structural member having a hollow cavity comprises the steps of preparing a first dough which includes a thermal setting resin, a first filler and unexpanded, thermally-expandable microspheres. A further step includes preparing a second dough which includes a curing agent, a colorant and a second filler. The curing agent is compatible with the thermosetting resin to promoter cross-linking of the thermosetting resin upon contact with the curing agent. The hollow structural member may be preheated to enhance the rate at whcih the thermosetting resin cross-links. The two dough are blended together until a reactive third dough of substantially uniform mixture is formed. The uniformity of the blending is confirmed when the reactive third dough attains a uniform color intermediate the color between the colors of the first and second doughs.

Abstract: A process for preparing a slow-burning, low-smoking, high heat-distortion-temperature polyisocyanurate polymer and the polymer produced thereby, which process comprises reacting an MDI prepolymer with a caprolactone polyol in the presence of a trimerization catalyst, wherein the MDI prepolymer is prepared from an MDI having a functionality of about 2.4 or less, and particularly a 2.4 isomer, and with an ethylene-oxide-capped polypropylene oxide polyol, the process providing for the formation of a rigid, high heat-distortion RIM or an open-spray molded part.

Abstract: A method of microencapsulation is disclosed whereby two or more organic-in-aqueous emulsions, each containing a reactive component in the organic phase, are mixed together causing the reactive components to react and form polymeric walls around the organic droplets. Either, neither or both emulsions may contain one or more fill materials in their organic phases.

Abstract: There are provided a wide range of polyurethane products, e.g., cellular, dense elastomer, and integral skin microcellular products, obtained by the reaction of (a) a polyisocyanate compound, (b) a polyol, (c) optionally a chain extender and/or blowing agent with/without other known additives, (d) in the presence of a non-hydroxyl flow modifier characterized by carbon and hydrogen atoms, at least one and, generally, a plurality of oxyalkylene groups, and at least one urethane, ##STR1## group. Several of the polyurethane products exhibit unique properties, e.g., foamed articles with capability to conduct static electricity, soft elastomers characterized by improved coefficient of friction, etc. Several classes of the flow modifiers are novel per se. The polyurethane products can be synthesized via the one shot or prepolymer process. Multipackage systems, in particular, two and three component systems are useful in molding operations, e.g., manufacture of shoe soles.

Abstract: A process for the preparation of a dimensionally stable one-component polyurethane foam from a storage-stable mixture, under pressure, of a prepolymer based on polyols and containing isocyanate groups and an organic blowing agent, with or without additives, by releasing the pressure and allowing the mixture to react with the atmosphere and cure, wherein the foamable mixture, which contains from 0.1 to 15% by weight, based on the weight of the prepolymer containing isocyanate groups, of a blowing agent is introduced into the inner container of a two-compartment pressure pack, which pack contains a pressure medium in the outer container, and is discharged, when required, through a dispensing device.