A method of preventing formation of rust on a metal surface is provided. The method may include applying a polyamine onto the metal surface and applying a compound of formula (I) or salt thereof onto the metal surface. The compositions and methods disclosed herein may be used to inhibit corrosion of a metal surface in contact with an aqueous system.

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A color masterbatch composition, comprising a thermoplastic polyester, a yellow colorant component, a red colorant component, and a blue colorant component. The yellow colorant component is selected from Pigment Yellow 147, Pigment Yellow 181, Pigment Yellow 183, Dye Brown 53, or a combination thereof. The red colorant component is selected from Pigment Red 122, Pigment Red 144, Pigment Red 202, Pigment Red 214, or combination thereof. The blue colorant component is selected from Pigment Blue 60, Dye Blue 67, or a combination thereof. The present invention further provides a colloidal particle that is obtained by developing the above masterbatch composition in a base material mainly composed of thermoplastic polyester. An article produced from the present disclosure has an effect of slowing down and reducing heat absorption and can maintain its original color during processing.

A color masterbatch composition, comprising a thermoplastic polyester, a yellow colorant component, a red colorant component, and a blue colorant component. The yellow colorant component is selected from Pigment Yellow 147, Pigment Yellow 181, Pigment Yellow 183, Dye Brown 53, or a combination thereof. The red colorant component is selected from Pigment Red 122, Pigment Red 144, Pigment Red 202, Pigment Red 214, or combination thereof. The blue colorant component is selected from Pigment Blue 60, Dye Blue 67, or a combination thereof. The present invention further provides a colloidal particle that is obtained by developing the above masterbatch composition in a base material mainly composed of thermoplastic polyester. An article produced from the present disclosure has an effect of slowing down and reducing heat absorption and can maintain its original color during processing.

A polyimide film and a flexible display device cover substrate using the same are provided, and the polyimide film includes a polyimide and a blue infrared absorbing agent. The blue infrared absorbing agent includes cesium tungsten oxide, tungsten oxide, Prussian blue, or antimony tin oxide. The blue infrared absorbing agent has infrared absorbing and photothermal conversion effects, and the surface temperature of the polyimide resin may be increased by infrared irradiation, so as to shorten the baking time.

A polyimide film and a flexible display device cover substrate using the same are provided, and the polyimide film includes a polyimide and a blue infrared absorbing agent. The blue infrared absorbing agent includes cesium tungsten oxide, tungsten oxide, Prussian blue, or antimony tin oxide. The blue infrared absorbing agent has infrared absorbing and photothermal conversion effects, and the surface temperature of the polyimide resin may be increased by infrared irradiation, so as to shorten the baking time.

An anti-friction varnish includes at least one organic binding agent, at least one solid lubricant and at least one bonding agent for improving the adhesion of a polymeric sliding layer, which may be produced from the anti-friction varnish, on a substrate, wherein the at least one bonding agent includes a ligand, which connects the bonding agent to the organic binding agent or to the substrate.

An anti-friction varnish includes at least one organic binding agent, at least one solid lubricant and at least one bonding agent for improving the adhesion of a polymeric sliding layer, which may be produced from the anti-friction varnish, on a substrate, wherein the at least one bonding agent includes a ligand, which connects the bonding agent to the organic binding agent or to the substrate.

A heat-resistant thermally conductive composition contains a matrix resin and thermally conductive particles, and contains a benzimidazolone compound as a heat resistance improver. Preferably, the benzimidazolone compound is a benzimidazolone pigment and is added in an amount of 0.001 to 5 parts by mass with respect to 100 parts by mass of the heat-resistant thermally conductive composition. Preferably, the matrix resin component is a silicone polymer. Preferably, the heat-resistant thermally conductive composition has an Asker C hardness of 70 or less after curing. With these, provided are a heat-resistant thermally conductive composition and a heat-resistant thermally conductive sheet that use the heat resistance improver containing no metal atom and that are less likely to become hard at high temperature.

A heat-resistant thermally conductive composition contains a matrix resin and thermally conductive particles, and contains a benzimidazolone compound as a heat resistance improver. Preferably, the benzimidazolone compound is a benzimidazolone pigment and is added in an amount of 0.001 to 5 parts by mass with respect to 100 parts by mass of the heat-resistant thermally conductive composition. Preferably, the matrix resin component is a silicone polymer. Preferably, the heat-resistant thermally conductive composition has an Asker C hardness of 70 or less after curing. With these, provided are a heat-resistant thermally conductive composition and a heat-resistant thermally conductive sheet that use the heat resistance improver containing no metal atom and that are less likely to become hard at high temperature.

A heat-resistant thermally conductive composition contains a matrix resin and thermally conductive particles, and contains a benzimidazolone compound as a heat resistance improver. Preferably, the benzimidazolone compound is a benzimidazolone pigment and is added in an amount of 0.001 to 5 parts by mass with respect to 100 parts by mass of the heat-resistant thermally conductive composition. Preferably, the matrix resin component is a silicone polymer. Preferably, the heat-resistant thermally conductive composition has an Asker C hardness of 70 or less after curing. With these, provided are a heat-resistant thermally conductive composition and a heat-resistant thermally conductive sheet that use the heat resistance improver containing no metal atom and that are less likely to become hard at high temperature.