An object of the present disclosure is to provide a method for manufacturing a conductive laminate having an excellent steady contact between a conductive layer and an overcoat layer. The present disclosure provides a method for manufacturing a conductive laminate 10 including a substrate 11, a conductive layer 12, and an overcoat layer 13 being laminated, the method including the following Steps: Step A: forming the conductive layer 12 on the substrate 11 using a conductive ink containing a metal nanoparticle and a first ink resin; and Step B: forming the overcoat layer 13 on the conductive layer 12 using an overcoat layer-forming composition, the overcoat layer-forming composition containing an overcoat layer resin and an overcoat layer solvent, the overcoat layer solvent having an SP value, where a difference between the SP value and an SP value of the first ink resin is 1.0 or less in absolute value.

An object of the present disclosure is to provide a method for manufacturing a conductive laminate having an excellent steady contact between a conductive layer and an overcoat layer. The present disclosure provides a method for manufacturing a conductive laminate 10 including a substrate 11, a conductive layer 12, and an overcoat layer 13 being laminated, the method including the following Steps: Step A: forming the conductive layer 12 on the substrate 11 using a conductive ink containing a metal nanoparticle and a first ink resin; and Step B: forming the overcoat layer 13 on the conductive layer 12 using an overcoat layer-forming composition, the overcoat layer-forming composition containing an overcoat layer resin and an overcoat layer solvent, the overcoat layer solvent having an SP value, where a difference between the SP value and an SP value of the first ink resin is 1.0 or less in absolute value.

A scenario-adaptable color-changing ink and a corresponding solar glass product are provided. The ink includes 7-30 parts by weight of photopolymer, 8-20 parts by weight of photoactive monomer, 1-5 parts by weight of photosensitizer, 30-55 parts by weight of weather-resistant resin, 1-10 parts by weight of curing agent, and 1-15 parts by weight of pearlescent pigment. The pearlescent pigment is at least one interference pearlescent pigments with weather-resistance, which has no color. Each sheet of the pearlescent pigment can be considered as a miniature prism which can break the white composite light into colorful monochromatic light, thus allow the coating of the printing ink to present a beautiful pearl luster and metallic luster. The pattern color which is visible by human is a result of overlaps and interferes of lights that the incident light is multiply reflected and refracted by the sheets of transparent pearlescent pigment.

Described herein are heat resistant inks and coating compositions that, when coated on a substrate, impart the feel of paper. The inks and coating compositions do not degrade when exposed to temperatures of 120° C. or greater.

Described herein are heat resistant inks and coating compositions that, when coated on a substrate, impart the feel of paper. The inks and coating compositions do not degrade when exposed to temperatures of 120° C. or greater.

Porous polysiloxane microspheres may be formed using a double emulsion (W/O/W) and double reaction process. The methods generally comprise forming a first emulsion and reacting components of the emulsion phases to form reinforced hydrogen gas pockets. The first emulsion is then combined with a solvent to form a second emulsion comprising a plurality of microspheres making up the dispersed phase. The microspheres comprise the reinforced gas pockets encapsulated by a polysiloxane, which are cured and recovered. The microspheres are particularly useful as fillers for low density composite materials and sensor applications.

Porous polysiloxane microspheres may be formed using a double emulsion (W/O/W) and double reaction process. The methods generally comprise forming a first emulsion and reacting components of the emulsion phases to form reinforced hydrogen gas pockets. The first emulsion is then combined with a solvent to form a second emulsion comprising a plurality of microspheres making up the dispersed phase. The microspheres comprise the reinforced gas pockets encapsulated by a polysiloxane, which are cured and recovered. The microspheres are particularly useful as fillers for low density composite materials and sensor applications.

A water-based ink jet ink composition contains Pigment Yellow 150, a dispersing resin, and N-hydroxyethylpyrrolidone.

The present invention provides: a vinyl chloride-based resin emulsion of a polymerization product composed of (A) a polycarbonate urethane oligomer having a number average molecular weight of 5,000 to 50,000 and (B) a monomer composition containing a vinyl chloride monomer, wherein the polycarbonate urethane oligomer (A) having a number average molecular weight of 5,000 to 50,000 is contained in an amount of 40 to 500 parts by mass relative to 100 parts by mass of the monomer composition (B) containing a vinyl chloride monomer; and a method for producing the vinyl chloride-based resin emulsion. The vinyl chloride-based resin emulsion according to the present invention can exhibit excellent water resistance, moisture resistance, high gloss, alcohol resistance, close adhesiveness and film formability at ambient temperature when used in a water-based ink, and can exhibit excellent color developability, water resistance, moisture resistance, color visibility, high gloss and close adhesiveness when used in recording paper, and therefore can be used effectively in a binder for an ink, a coating material and an inorganic substance dispersion, an absorption layer in recording paper, a fiber treating agent, wallpaper in medical facilities and the like.

The present invention provides: a vinyl chloride-based resin emulsion of a polymerization product composed of (A) a polycarbonate urethane oligomer having a number average molecular weight of 5,000 to 50,000 and (B) a monomer composition containing a vinyl chloride monomer, wherein the polycarbonate urethane oligomer (A) having a number average molecular weight of 5,000 to 50,000 is contained in an amount of 40 to 500 parts by mass relative to 100 parts by mass of the monomer composition (B) containing a vinyl chloride monomer; and a method for producing the vinyl chloride-based resin emulsion. The vinyl chloride-based resin emulsion according to the present invention can exhibit excellent water resistance, moisture resistance, high gloss, alcohol resistance, close adhesiveness and film formability at ambient temperature when used in a water-based ink, and can exhibit excellent color developability, water resistance, moisture resistance, color visibility, high gloss and close adhesiveness when used in recording paper, and therefore can be used effectively in a binder for an ink, a coating material and an inorganic substance dispersion, an absorption layer in recording paper, a fiber treating agent, wallpaper in medical facilities and the like.