The present invention addresses the problem of providing powder paint compositions and liquid paint compositions for baking, which have excellent corrosion resistance and workability as well as high durability and chemical resistance, and form a good lining film free from failures such as cracks; and a coating film and coated objects comprising such powder paint compositions or liquid paint compositions for baking. Powder paint compositions for baking comprise fluororesin where one or more types of porous coordination polymer (PCP)/metal-organic framework (MOF) formed by coordinate bonds between organic ligands and central metals disperse.

A coating material for preventing metal corrosion contains 50 to 99% by mass of an inorganic layered compound having an average particle size of 10 m or less; 1 to 50% by mass of a corrosion inhibitor; and a liquid medium, in which the total content of the inorganic layered compound and the corrosion inhibitor is 100% by mass.

Anti-corrosion nanoparticle compositions include a carrier and a plurality of nonionic metal nanoparticles. The metal nanoparticles can be spherical-shaped and/or coral-shaped metal nanoparticles. The nanoparticles are selected so as to locate at the grain boundaries of a metal or metal alloy when the anti-corrosion composition is applied to the metal or alloy, thereby reducing or preventing intergranular corrosion of the metal or alloy.

A coating composition for coating of components of a flow machine, especially a turbomachine such as a gas turbine with compressor, or of a compressor, which are exposed to the fluid stream of the flow machine or of the compressor, wherein the coating composition includes anticorrosion pigments, wherein the coating composition includes hard material particles, and wherein the coating composition is an RT-curing, UV-curing and/or thermally curing coating composition. A component of a flow machine or of a compressor has the coating composition. A method of maintaining a flow machine or a compressor uses the coating composition.

The present disclosure discloses a hexagonal boron nitride epoxy compound anticorrosive paint, and a preparation method and use thereof. The anticorrosive paint mainly comprises hexagonal boron nitride, an oligoaniline or polyaniline nanofiber, an epoxy resin, a dispersing medium, a paint additive, an epoxy resin curing agent, and a solvent. The hexagonal boron nitride epoxy compound anticorrosive paint provided by the present disclosure has the advantages, such as good stability, simple preparation process, and low cost, does not tend to precipitate, is suitable for large-scale production, forms a coating that has excellent barrier properties and lasting corrosion resistance, and has very good application prospects in the industries, such as chemical industry, petroleum, electric power, shipping, light textile, storage, transport, and spaceflight.

The present disclosure is directed to processes, compositions and agents for inhibiting corrosion in various substrates, for example metal substrates. The present disclosure is also directed to corrosion inhibitors comprising organometallic polymers such as metal-organic frameworks (MOFs), including compositions and processes comprising MOFs for inhibiting corrosion in metal substrates.

This disclosure provides a pigmented primer composition for forming an n-acyl urea coating on a substrate. The pigmented primer composition includes a polycarbodiimide-polyurethane hybrid. The pigmented primer composition also includes an acid functional polymer and an organic solvent, and includes less than or equal to 10 weight percent of water based on a total weight of the pigmented primer composition. The pigmented primer composition also includes a pigment, an inorganic filler, and less than about 100 parts by weight of toluene diisocyanate per one million parts by weight of the pigmented primer composition. The n-acyl urea coating exhibits corrosion resistance of 2 to 10 as determined using ASTM B117 and ASTM D-1654-08 on a substrate that is unpolished cold rolled steel, aluminum, or galvanized steel.

Anti-corrosion material is produced from date palm tree waste by extracting lignin and modifying by sulfonation. The anti-corrosion material produced from date palm tree waste is non-toxic and effective at preventing or reducing corrosion of, for example, metals subject to corrosive environments, and particularly marine environments.

A system including a rod shaped and configured to be formed into a U-bolt, the rod including a body having a pair of opposed threaded ends. The system further includes a blackening coating on an outer surface of the body, and an anticorrosive coating on the blackening coating.

The present invention relates to coatings, particularly high performance coatings, containing a polyester polyol comprising recurring units derived from a polyacid source, poly(bisphenol-A carbonate) (PBAC), and a glycol. The PBAC is preferably recycled poly(bisphenol-A carbonate) (rPBAC). These coatings provide improved salt spray and stain resistance along with a variety of other coating performance attributes. The polyols can contain a significant recycle and biobased content, making them sustainable alternatives to petroleum based polyols.