The present disclosure relates to a pigment dispersion comprising silane-modified colloidal silica particles, an organic and/or inorganic pigment, a water-soluble thickening polymer in an amount of 0.1 wt. %, and water. The pigment dispersion is useful for tinting paint compositions, and exhibits excellent storage stability and washout resistance of the resulting coating. Another aspect of the present disclosure relates to a method for tinting a paint composition.

The present disclosure relates to a pigment dispersion comprising silane-modified colloidal silica particles, an organic and/or inorganic pigment, a water-soluble thickening polymer in an amount of 0.1 wt. %, and water. The pigment dispersion is useful for tinting paint compositions, and exhibits excellent storage stability and washout resistance of the resulting coating. Another aspect of the present disclosure relates to a method for tinting a paint composition.

The present invention discloses an environment-friendly wall paint for a building and a preparation method thereof. The wall paint comprises glue powder, silica gel, nano-montmorillonite composite powder, diatomite dispersion, nano-calcium silicate, nano-titanium dioxide, glass fiber powder, red clay, lime, water, lignin, acrylamide, bamboo charcoal powder, alfalfa meal, tobacco straw fiber powder, Ligusticum chuanxiong Hort extracting solution, Agastache rugosa extracting solution, mint extracting solution and natural plant essential oil. The wall paint disclosed by the present invention can be used for decorative coating of interior walls of the building, has the characteristics of strong adhesion, rapid drying, water and moisture resistance, no skinning, no shedding, no toxicity and no pollution, can purify indoor air, and also has the effects of heat preservation, heat insulation and fire prevention.

Art paints or base materials can be manufactured from discarded materials such as architectural paint to reduce waste paint and to produce high quality art paints at a low cost and with a low ecological impact. Discarded architectural paint or other feedstock material is sorted, treated, and mixed with additives such as colorant, polymers, or monomers in a dispersion to produce a high-quality art paint. The high quality art paint can have selected traits, such as color, sheen, dry time, viscosity, or other properties, that are desirable for art paints but not traditionally present in the source feedstock materials.

Art paints or base materials can be manufactured from discarded materials such as architectural paint to reduce waste paint and to produce high quality art paints at a low cost and with a low ecological impact. Discarded architectural paint or other feedstock material is sorted, treated, and mixed with additives such as colorant, polymers, or monomers in a dispersion to produce a high-quality art paint. The high quality art paint can have selected traits, such as color, sheen, dry time, viscosity, or other properties, that are desirable for art paints but not traditionally present in the source feedstock materials.

Methods and high visible-light reflective reactive resinous coatings that increase visible light inside a grow house and enhance plant growth therein. A pre-dispersion of a resin, zinc oxide, one or more fillers, and retroreflective microspheres, is mixed with a one-part or two-part reactive coating system to provide a high-reflectance reactive resin coating composition. At least one or more layers of the high-reflectance reactive resin coating composition is coated onto a substrate inside the grow house and allowed to cure. The cured high-reflectance reactive resin layer has a light reflectance increase up to 60% in lumens increasing an amount of visible light inside the grow house to enhance plant growth.

Methods and high visible-light reflective reactive resinous coatings that increase visible light inside a grow house and enhance plant growth therein. A pre-dispersion of a resin, zinc oxide, one or more fillers, and retroreflective microspheres, is mixed with a one-part or two-part reactive coating system to provide a high-reflectance reactive resin coating composition. At least one or more layers of the high-reflectance reactive resin coating composition is coated onto a substrate inside the grow house and allowed to cure. The cured high-reflectance reactive resin layer has a light reflectance increase up to 60% in lumens increasing an amount of visible light inside the grow house to enhance plant growth.

The invention to which this application relates is apparatus and a method for applying coatings to improve the ability to provide Oleophobic and/or Hydrophilic surfaces on an item and the coating includes particles and/or nano particles to enhance the performance characteristics of the coating.

The invention to which this application relates is apparatus and a method for applying coatings to improve the ability to provide Oleophobic and/or Hydrophilic surfaces on an item and the coating includes particles and/or nano particles to enhance the performance characteristics of the coating.

The present invention is directed to a process for preparing coating compositions containing up to 100% bio-based content. The coating compositions are used for coating metal, paper and wood substrates in various applications. The process for preparing the coating composition comprises the steps of providing lignin, wherein the lignin is agglomerated and has a particle size distribution such that at least 80 wt-% of the agglomerates have a diameter within the range of from 0.2 mm to 5.0 mm, dissolving the agglomerated lignin in an organic solvent, and mixing the solution with a crosslinker to obtain a coating composition.