Disclosed are an inorganic fireproof and heat-insulating material and an article thereof. The material comprises the following components in weight ratio: 5 parts of A component, 5.5-7 parts of a bonding agent, and 1-1.5 parts of a curing agent, wherein the A component comprises perlite and vermiculite in a weight ratio of 1:4 to 4:1. Both the perlite and vermiculite are in particle form after expansion, and the bonding agent is an inorganic bonding agent. The material is formed by mixing the abovementioned components, then pouring same into a forming mold, and pressing. The present invention has good fireproof performance and heat insulation performance. A fireproof and heat-insulating plate made by mixing the expanded perlite, vermiculite, and elutriated mud (i.e. pottery clay) improves the strength thereof, and satisfies the requirements for an external wall on waterproofing, fireproof and heat insulation.

Disclosed are an inorganic fireproof and heat-insulating material and an article thereof. The material comprises the following components in weight ratio: 5 parts of A component, 5.5-7 parts of a bonding agent, and 1-1.5 parts of a curing agent, wherein the A component comprises perlite and vermiculite in a weight ratio of 1:4 to 4:1. Both the perlite and vermiculite are in particle form after expansion, and the bonding agent is an inorganic bonding agent. The material is formed by mixing the abovementioned components, then pouring same into a forming mold, and pressing. The present invention has good fireproof performance and heat insulation performance. A fireproof and heat-insulating plate made by mixing the expanded perlite, vermiculite, and elutriated mud (i.e. pottery clay) improves the strength thereof, and satisfies the requirements for an external wall on waterproofing, fireproof and heat insulation.

Lithium-containing cement admixtures including a calcium aluminate phosphate cement; a lithium-ion-containing compound; and an aqueous base fluid and methods of introducing the lithium-containing cement admixtures into a subterranean formation. The lithium-containing cement admixtures may further comprise an aluminosilicate or an additive including a set retarder, a set accelerator, a suspension aid, a density reducing agent, a fluid loss control agent, a defoamer, and any combination thereof.

Lithium-containing cement admixtures including a calcium aluminate phosphate cement; a lithium-ion-containing compound; and an aqueous base fluid and methods of introducing the lithium-containing cement admixtures into a subterranean formation. The lithium-containing cement admixtures may further comprise an aluminosilicate or an additive including a set retarder, a set accelerator, a suspension aid, a density reducing agent, a fluid loss control agent, a defoamer, and any combination thereof.

An inorganic dry powder building coating comprises inorganic gel system consisting of alkali metal silicates and hardener, organic re-dispersed emulsoid powder, and may also comprise filler, pigment and auxiliaries. The coating of the present invention has good storage stability, scrub resistance, weather resistance, and is easy to transport. No salting-out and no harmful substances, such as volatile organic compound, benzene, formaldehyde, heavy metal, appear after being solidified to perform film.

An inorganic dry powder building coating comprises inorganic gel system consisting of alkali metal silicates and hardener, organic re-dispersed emulsoid powder, and may also comprise filler, pigment and auxiliaries. The coating of the present invention has good storage stability, scrub resistance, weather resistance, and is easy to transport. No salting-out and no harmful substances, such as volatile organic compound, benzene, formaldehyde, heavy metal, appear after being solidified to perform film.

The present invention relates to methods and compositions for the treatment of subterranean formations. In various embodiments, the method includes obtaining or providing a composition including at least one-ion sequestering compound, sequestering at least one ion from a polymer in the composition with the at least one ion-sequestering compound, and contacting a subterranean material downhole with the composition.

The present invention relates to methods and compositions for the treatment of subterranean formations. In various embodiments, the method includes obtaining or providing a composition including at least one-ion sequestering compound, sequestering at least one ion from a polymer in the composition with the at least one ion-sequestering compound, and contacting a subterranean material downhole with the composition.

A process for the preparation of a hardening accelerator composition by reaction of a water-soluble calcium compound with a water-soluble silicate compound, said reaction being effected in the present of a water-soluble dispersant having at least one polyalkyleneglycol structural unit with a functional group at one end of the polyalkyleneglycol, being able to interact as an anchor group with the surface of cement particles, the hardening accelerator composition and its use.

A process for the preparation of a hardening accelerator composition by reaction of a water-soluble calcium compound with a water-soluble silicate compound, said reaction being effected in the present of a water-soluble dispersant having at least one polyalkyleneglycol structural unit with a functional group at one end of the polyalkyleneglycol, being able to interact as an anchor group with the surface of cement particles, the hardening accelerator composition and its use.