Disclosed are methods for incorporating core materials such as phase change materials or admixtures into building materials like concrete. The methods use cenospheres, which are then etched and loaded with the core material. The composition can also be coated with a thin film. Compositions containing cenospheres loaded with the various core materials are disclosed, as are building materials containing such compositions.

Disclosed are methods for incorporating core materials such as phase change materials or admixtures into building materials like concrete. The methods use cenospheres, which are then etched and loaded with the core material. The composition can also be coated with a thin film. Compositions containing cenospheres loaded with the various core materials are disclosed, as are building materials containing such compositions.

A continuous ready mix joint or texture compound manufacturing system and a method for continuously manufacturing a ready mix joint or texture compound includes a continuous mixer having an inlet and an outlet, a pump disposed at the outlet of the continuous mixer, and a disperger having an inlet and an outlet. The continuous mixer is adapted to receive at least one dry ingredient and at least one wet ingredient at the inlet and continuously mix the at least one dry ingredient and the at least one wet ingredient to form a mixed composition. The pump is adapted to pump the mixed composition from the outlet of the continuous mixer to the inlet of the disperger. The disperger is adapted to receive the mixed composition and apply a shear force to the mixed composition to form a homogenized, disperged composition.

A method of using a gas control additive to provide gas migration control in a wellbore includes the steps of mixing the gas control additive with a cement to form a cement slurry, where the gas control additive includes a semi-permeable membrane and a scrubbing agent, such that the semi-permeable membrane forms a shell around a core such that the scrubbing agent is in the core, introducing the cement slurry to the wellbore, and reacting the scrubbing agent with an antagonistic gas to produce a helper byproduct, where the antagonistic gas migrates from a hydrocarbon-bearing formation into the wellbore and permeates through the semi-permeable membrane to the core of the gas control additive.

One of the chief purposes of researchers in the field of chemistry is to perform chemical reactions at high rates; a method that can be adopted to achieve such goal is to perform reactions in magnetized solvents. Being passed through the Solvents Magnetizing Apparatus (SMA) magnetizes the solvent, and the magnetic property remains intact for a few days, while most chemical reactions are done in less than one day. It should be taken into consideration that the magnetized solvent is different from the Zeeman effect in chemistry. This technology is widely used in performing chemical processes of most chemical reactions.

One of the chief purposes of researchers in the field of chemistry is to perform chemical reactions at high rates; a method that can be adopted to achieve such goal is to perform reactions in magnetized solvents. Being passed through the Solvents Magnetizing Apparatus (SMA) magnetizes the solvent, and the magnetic property remains intact for a few days, while most chemical reactions are done in less than one day. It should be taken into consideration that the magnetized solvent is different from the Zeeman effect in chemistry. This technology is widely used in performing chemical processes of most chemical reactions.

An aqueous, pourable, foamable, pumpable and settable dispersion, its use to produce a porous, mineral lightweight construction material, and a process for producing the dispersion, are described. The dispersion contains cement and/or zinc phosphate cement or a mixture of cement and/or zinc phosphate cement and a Silicate and/or an aluminosilicate with an alkaline or acidic activator for producing a geopolymer and/or a geopolymer, containing a Surfactant, 0.01 to 5 wt %, relative to the dry mass of the dispersion, of modified and/or unmodified natural potato starch, rice starch, corn starch, and wheat starch and of cooked and/or raw, comminuted pieces of grains, potatoes and rice, and water having a hardness of >3.2 mmol/1. Also described herein are the porous, mineral lightweight construction material and its use. The construction material contains, relative to a given lightweight construction material, 50 wt % to 95 wt % of a cement and/or a zinc phosphate cement or a mixture of a Silicate and/or of an aluminosilicate with an alkaline or acidic activator for producing a geopolymer and/or a geopolymer with cement and/or zinc phosphate cement, 0.001 wt % to 3 wt % of a Surfactant, and 0.01 wt % to <10 wt % of potato starch, rice starch, corn starch and/or wheat starch of cooked and/or raw, comminuted pieces of grains, potatoes and rice.

An aqueous, pourable, foamable, pumpable and settable dispersion, its use to produce a porous, mineral lightweight construction material, and a process for producing the dispersion, are described. The dispersion contains cement and/or zinc phosphate cement or a mixture of cement and/or zinc phosphate cement and a Silicate and/or an aluminosilicate with an alkaline or acidic activator for producing a geopolymer and/or a geopolymer, containing a Surfactant, 0.01 to 5 wt %, relative to the dry mass of the dispersion, of modified and/or unmodified natural potato starch, rice starch, corn starch, and wheat starch and of cooked and/or raw, comminuted pieces of grains, potatoes and rice, and water having a hardness of >3.2 mmol/1. Also described herein are the porous, mineral lightweight construction material and its use. The construction material contains, relative to a given lightweight construction material, 50 wt % to 95 wt % of a cement and/or a zinc phosphate cement or a mixture of a Silicate and/or of an aluminosilicate with an alkaline or acidic activator for producing a geopolymer and/or a geopolymer with cement and/or zinc phosphate cement, 0.001 wt % to 3 wt % of a Surfactant, and 0.01 wt % to <10 wt % of potato starch, rice starch, corn starch and/or wheat starch of cooked and/or raw, comminuted pieces of grains, potatoes and rice.

Disclosed are methods for incorporating core materials such as phase change materials or admixtures into building materials like concrete. The methods use cenospheres, which are then etched and loaded with the core material. The composition can also be coated with a thin film. Compositions containing cenospheres loaded with the various core materials are disclosed, as are building materials containing such compositions.

Disclosed are methods for incorporating core materials such as phase change materials or admixtures into building materials like concrete. The methods use cenospheres, which are then etched and loaded with the core material. The composition can also be coated with a thin film. Compositions containing cenospheres loaded with the various core materials are disclosed, as are building materials containing such compositions.