A composition and method of synthesizing a composition from organic oils and industrial byproducts for use as a corrosion inhibitor coating is disclosed. The synthesis of a rapid setting ionomer is the result of iron-induced polymerization of oleic and linoleic acids, where an alkaline ionomeric reaction is facilitated with a small fraction of pure aluminum leaf at room temperature. At least one alkaline reagent is employed with at least one metallic additive to form metal complex ionomers that form a solid polymer. The resulting ionomer is stirred and applied on the substrate as a surface coating and it starts setting in less than thirty minutes.

A composition and method of synthesizing a composition from organic oils and industrial byproducts for use as a corrosion inhibitor coating is disclosed. The synthesis of a rapid setting ionomer is the result of iron-induced polymerization of oleic and linoleic acids, where an alkaline ionomeric reaction is facilitated with a small fraction of pure aluminum leaf at room temperature. At least one alkaline reagent is employed with at least one metallic additive to form metal complex ionomers that form a solid polymer. The resulting ionomer is stirred and applied on the substrate as a surface coating and it starts setting in less than thirty minutes.

A new composition has been invented which for restores the appearance of finished wood surfaces. The composition includes between 20 and 40%, by volume, of at least two oils; between 60 and 80%, by volume, of an organic, nonpolar solvent; and, at least two colorants, with a first colorant comprising about twice, by volume of a second colorant. The at least two oils may be any combination of tung oil, boiled linseed oil, and, olive oil, preferably all three are present. The organic, nonpolar solvent may be high grade mineral spirits. The first colorant may be yellow oxide and the second colorant may be raw umber.

A new composition has been invented which for restores the appearance of finished wood surfaces. The composition includes between 20 and 40%, by volume, of at least two oils; between 60 and 80%, by volume, of an organic, nonpolar solvent; and, at least two colorants, with a first colorant comprising about twice, by volume of a second colorant. The at least two oils may be any combination of tung oil, boiled linseed oil, and, olive oil, preferably all three are present. The organic, nonpolar solvent may be high grade mineral spirits. The first colorant may be yellow oxide and the second colorant may be raw umber.

The present invention relates to a coating composition comprising at least from 1% by weight to 30% by weight, limits included, of a surfactant, preferably a nitrogen-containing surfactant, and from 5% by weight to 99% by weight, limits included, of a cyclic alcohol, comprising 12 to 100 carbon atoms, limits included, and of derivatives of this.

The present invention also relates to the granular material coated with said composition.

The present invention relates to a coating composition comprising at least from 1% by weight to 30% by weight, limits included, of a surfactant, preferably a nitrogen-containing surfactant, and from 5% by weight to 99% by weight, limits included, of a cyclic alcohol, comprising 12 to 100 carbon atoms, limits included, and of derivatives of this.

The present invention also relates to the granular material coated with said composition.

The present application relates generally to bio-adhesive components isolated from bio-oil prepared from animal waste, methods of preparation of the bio-adhesive components and uses thereof. Such uses include, but are not limited to, asphalt bio-binders, bio-adhesion promoters, asphalt bio-rejuvenators, asphalt bio-extenders, bio-asphalt as well as uses in roofing, soil stabilization, crack and joint sealing and flooring adhesives.

The present application relates generally to bio-adhesive components isolated from bio-oil prepared from animal waste, methods of preparation of the bio-adhesive components and uses thereof. Such uses include, but are not limited to, asphalt bio-binders, bio-adhesion promoters, asphalt bio-rejuvenators, asphalt bio-extenders, bio-asphalt as well as uses in roofing, soil stabilization, crack and joint sealing and flooring adhesives.

A moisture barrier coating includes the reaction product of (A) at least one polyol and (B) at least one polyisocyanate. The moisture barrier coating further includes at least one amorphous thermoplastic material that forms a homogeneous mixture with the polyol, and is nonreactive with the polyol and with the polyisocyanate. A controlled release fertilizer, a method for the production of a controlled release fertilizer, and a moisture barrier coating composition are also disclosed.

Vegetable material coating subject to dehydration and oxidation, sugar cane buds or setts preferably, which involve a substrate, an agglutinant agent, a plasticizing agent, and a biodegradable film or coverage. Such substrate can be from commercial crops, earth, cellulose, corn shell or other cereals, perlome, bagasse, fertile earth, compost, sand, coconut fibre or other vegetable origin fibres, or their combinations. The agglutinant agent can be proteins, fat, vegetable gums, modified starch and/or starch gels, dextrins, maltodextrins, carboxymetylcellulose, cellulose, kitosane mixed with polyalcohols, pectin, agar, alginate, sorbitol or other polyalcohols, glycerides, such as fats and vegetable and animal oils, water-proofing agents, polymeric plasticizing agents, phosphates, acetyl monoglycerides, glycerol, gat acids, sorbitol or other polyalcohols. Coating can be polysaccharides of a protein, lepidic composition or a combination of both, microperforated film, parafilm, and PLA (polylactic acid), biodegradable film poly (lactic acid), poly (hydroxybutyrate), poly (hydroxybutyrate-co-valerate), or their mixtures. Fats, pectins, cellulose, waxes, starch films or other polysaccharides, alginate, calcium carbonate, vinyl coatings, plastic paints. Mixtures can be obtained from solution mixing, preformed matrix resulting from moulting or merging. The biodegradable film or coating can comprise different types of perforations, for instance, circular, lengthwise, perforations, cuts, inserts, notches, etc. Moreover, it can be of different colours according to the variety, storage time, planting time, etc. Such coating can be vacuum sealed, by means of double thermal sealing, etc.