Described herein, are dishwashing paste compositions comprising: an abrasive; a pH modifying agent in an amount effective to provide a pH greater than 7; a structuring agent; and a source of polyvalent cations. Methods of making and using these compositions are also described.

Described herein, are dishwashing paste compositions comprising: an abrasive; a pH modifying agent in an amount effective to provide a pH greater than 7; a structuring agent; and a source of polyvalent cations. Methods of making and using these compositions are also described.

A stain removal product formulation and method utilizing a dry, portable product. The dry, portable removal product preferably contains specially treated ingredients, including a composition of microporous silica and alumina tetrahedra and combined with aluminum dioctahedral phyllosilicales family of minerals, ingredients may vary depending on the type of stain to treat, for example, for stains having an oil. grease or fat base. Due to the nature of stains and their varied content the product formulation may also include a combination of other dry ingredients such as clays, minerals, baking soda, com stareh, flour or other dry ingredients. Optional ingredients which may be added including dry coloring and/or dry fragrance components. The dry product formulation is provided in a powder, granule or flake form in moisture resistant packages and kits.

The present disclosure is directed to a method for in-situ cleaning one or more components of a gas turbine engine using an abrasive gel detergent. More specifically, the gel detergent includes a plurality of abrasive particles suspended in a gel composition. Further, the abrasive particles include organic material. Moreover, the gel composition is formed of a mixture of detergent particles dissolved in a gel reactant. Thus, the method includes injecting the gel detergent into at least a portion of the gas turbine engine at a predetermined pressure. In addition, the method includes allowing the gel detergent to flow across or within one or more of the components of the gas turbine engine so as to clean one or more of the components.

The present disclosure is directed to a method for in-situ cleaning one or more components of a gas turbine engine using an abrasive gel detergent. More specifically, the gel detergent includes a plurality of abrasive particles suspended in a gel composition. Further, the abrasive particles include organic material. Moreover, the gel composition is formed of a mixture of detergent particles dissolved in a gel reactant. Thus, the method includes injecting the gel detergent into at least a portion of the gas turbine engine at a predetermined pressure. In addition, the method includes allowing the gel detergent to flow across or within one or more of the components of the gas turbine engine so as to clean one or more of the components.

A composition for pretreating surfaces of equipment for use with an uncured cementitious material, such as uncured concrete, and/or for cleaning cured cementitious material from the surfaces of such equipment includes an aqueous solution with colloidal silica. Pretreatment of a surface with such an aqueous solution may reduce or eliminate adhesion of uncured cementitious material to the surface. Cured cementitious material may be removed from equipment surfaces by wetting the cured cementitous material with the aqueous solution to chemically soften the cured cementitious material, along with abrading the cured cementitious material to mechanically remove the same from the equipment surfaces. Systems for removing cured cementitious material from the surfaces of equipment configured to use with uncured cementitious material include an abrasive element and an aqueous solution with colloidal silica.

Cleaning compositions that include an insoluble cationically-modified cellulose and external structurant. Methods of making and using such cleaning compositions.

Cleaning compositions that include an insoluble cationically-modified cellulose and a soluble performance polymer. Methods of making and using such cleaning compositions.

A personal care composition comprising a cosmetically acceptable base and inorganic particulate material, for example, a shower gel or hair shampoo, and a method of making the personal care composition. A cleaning composition comprising a base and inorganic particulate material, for example, a hard surface cleansing composition, and a method of making the cleaning composition. A composition, for example, a personal care composition, use of an inorganic particulate material having a d50 of from about 0.1 m to about 200 m in such a composition, and a method for making such a composition.

A personal care composition comprising a cosmetically acceptable base and inorganic particulate material, for example, a shower gel or hair shampoo, and a method of making the personal care composition. A cleaning composition comprising a base and inorganic particulate material, for example, a hard surface cleansing composition, and a method of making the cleaning composition. A composition, for example, a personal care composition, use of an inorganic particulate material having a d50 of from about 0.1 m to about 200 m in such a composition, and a method for making such a composition.