The present invention discloses a composition which uses bio-based, biodegradable film formers to provide a durable strippable coating. The coating includes a film former configured to form a continuous film on the substrate. The coating includes a solvent, wherein the solvent is configured to result an easy application of the substance on the substrate. The coating includes one or more additives. The one or more additives include a plasticizer to improve flexibility of the film. The one or more additives include a release agent configured to reduce adhesion of the coating on the substrate. The one or additives a thickener configured for adjusting a viscosity and of the coating.

The present invention discloses a composition which uses bio-based, biodegradable film formers to provide a durable strippable coating. The coating includes a film former configured to form a continuous film on the substrate. The coating includes a solvent, wherein the solvent is configured to result an easy application of the substance on the substrate. The coating includes one or more additives. The one or more additives include a plasticizer to improve flexibility of the film. The one or more additives include a release agent configured to reduce adhesion of the coating on the substrate. The one or additives a thickener configured for adjusting a viscosity and of the coating.

A composition for a direct ink writing includes a polymeric component in latex form, where the latex includes greater than 75% solids content; and additives adapted to provide the composition with capability of being utilized as a rubber ink formulation for the direct ink writing process. A method of producing an additive manufacturing product includes steps of providing an initial polymeric component in latex form, where the initial polymeric component in latex form includes from about 50% to about 70% solids content; removing water from the initial polymeric component in latex form to thereby form a subsequent polymeric component in latex form, where the subsequent polymeric component in latex form has greater than 75% solids content; and mixing the subsequent polymeric component in latex form with additives adapted to provide a rubber ink formulation composition; and additive manufacturing the rubber ink formulation composition to thereby form a green component.

A composition for a direct ink writing includes a polymeric component in latex form, where the latex includes greater than 75% solids content; and additives adapted to provide the composition with capability of being utilized as a rubber ink formulation for the direct ink writing process. A method of producing an additive manufacturing product includes steps of providing an initial polymeric component in latex form, where the initial polymeric component in latex form includes from about 50% to about 70% solids content; removing water from the initial polymeric component in latex form to thereby form a subsequent polymeric component in latex form, where the subsequent polymeric component in latex form has greater than 75% solids content; and mixing the subsequent polymeric component in latex form with additives adapted to provide a rubber ink formulation composition; and additive manufacturing the rubber ink formulation composition to thereby form a green component.

The present disclosure develops a water-based peelable coating that can be colored and that when drying at room temperature makes it possible to temporarily protect various surfaces and their manufacturing processes. Notably, the present invention relates to a coating designed by using exclusively naturally occurring polymeric materials, which can be applied by various methods and be used outdoors or indoors on clear, rough and smooth substrates, except woven materials, so as to provide protection and beautification.

The present disclosure develops a water-based peelable coating that can be colored and that when drying at room temperature makes it possible to temporarily protect various surfaces and their manufacturing processes. Notably, the present invention relates to a coating designed by using exclusively naturally occurring polymeric materials, which can be applied by various methods and be used outdoors or indoors on clear, rough and smooth substrates, except woven materials, so as to provide protection and beautification.

The present disclosure develops a water-based peelable coating that can be colored and that when drying at room temperature makes it possible to temporarily protect various surfaces and their manufacturing processes. Notably, the present invention relates to a coating designed by using exclusively naturally occurring polymeric materials, which can be applied by various methods and be used outdoors or indoors on clear, rough and smooth substrates, except woven materials, so as to provide protection and beautification.

Barriers for improved vapor mitigation are contemplated, such barriers being formed as a cured latex-asphalt mixture applied to the metal surface of a metallized substrate. The latex-asphalt mixture, prior to curing, comprises an emulsion of an asphalt component, a latex component, and water. Such barriers may be seen to substantially mitigate diffusion of chemical contaminants across the barriers in the form of gas or liquids. Also contemplated are methods for forming such barriers, whether fabricated off-site for installation on site, fabricated in-situ.

Barriers for improved vapor mitigation are contemplated, such barriers being formed as a cured latex-asphalt mixture applied to the metal surface of a metallized substrate. The latex-asphalt mixture, prior to curing, comprises an emulsion of an asphalt component, a latex component, and water. Such barriers may be seen to substantially mitigate diffusion of chemical contaminants across the barriers in the form of gas or liquids. Also contemplated are methods for forming such barriers, whether fabricated off-site for installation on site, fabricated in-situ.

The present disclosure develops a water-based peelable coating that can be colored and that when drying at room temperature makes it possible to temporarily protect various surfaces and their manufacturing processes. Notably, the present invention relates to a coating designed by using exclusively naturally occurring polymeric materials, which can be applied by various methods and be used outdoors or indoors on clear, rough and smooth substrates, except woven materials, so as to provide protection and beautification.