A composition is provided for a non-aqueous foaming aerosol cleaner or lubricant. Foam builders, especially silicone glycol copolymers, are used to generate high density foam of the solvent-based formula. A cleaning product variant may be introduced via an air intake route for loosening deposits in an internal combustion engine. The high foam aerosol product dispenses easily without causing engine stalling. A process of lubricating a target substrate is also provided.

A cleaning agent composition for use in removing an adhesive residue, characterized in that the composition contains a quaternary ammonium salt and a composition solvent including a first organic solvent and a second organic solvent; the first organic solvent is an amide derivative represented by formula (Z) (wherein R.sup.0 represents an ethyl group, a propyl group, or an isopropyl group; and each of R.sup.A and R.sup.B represents a C1 to C4 alkyl group); the second organic solvent is a non-amide organic solvent other than the amide derivative; and the composition has a water content less than 4.0 mass %.

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A cleaning agent composition for use in removing an adhesive residue, characterized in that the composition contains a quaternary ammonium salt and a composition solvent including a first organic solvent and a second organic solvent; the first organic solvent is an amide derivative represented by formula (Z) (wherein R.sup.0 represents an ethyl group, a propyl group, or an isopropyl group; and each of R.sup.A and R.sup.B represents a C1 to C4 alkyl group); the second organic solvent is a non-amide organic solvent other than the amide derivative; and the composition has a water content less than 4.0 mass %.

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Process for making a granule containing (A) at least one chelating agent selected from alkali metal salts of methyl glycine diacetic acid (MGDA) and of iminodisuccinic acid (IDS), and, optionally, (B) at least one homo- or copolymer of (meth)acrylic acid, partially or fully neutralized with alkali,
said process comprising the steps of (a) providing an aqueous solution or slurry containing chelating agent (A) and, if applicable, (co)polymer (B), (b) removing most of said water by spray granulation in a fluidized bed, (c) treating the resultant granule in a vessel of which at least one part rotates around a horizontal axis and wherein said vessel is selected from paddle mixers, free-fall mixers and plough share mixers.

Process for making a granule containing (A) at least one chelating agent selected from alkali metal salts of methyl glycine diacetic acid (MGDA) and of iminodisuccinic acid (IDS), and, optionally, (B) at least one homo- or copolymer of (meth)acrylic acid, partially or fully neutralized with alkali,
said process comprising the steps of (a) providing an aqueous solution or slurry containing chelating agent (A) and, if applicable, (co)polymer (B), (b) removing most of said water by spray granulation in a fluidized bed, (c) treating the resultant granule in a vessel of which at least one part rotates around a horizontal axis and wherein said vessel is selected from paddle mixers, free-fall mixers and plough share mixers.

A surfactant composition includes a homogeneous mixture of greater than 70%, by weight, of N-acyl alaninate surfactant of formula (I) and an N-acyl amino acid surfactant of formula (II). A process for preparation of a blend of an N-acyl alaninate surfactant and an N-acyl amino acid surfactant includes combining (a) an alanine amino acid and (b) other amino acid, an anhydrous alkali salt of the other amino acid, or both, a waterless base, and a fatty alkyl ester of formula (V) to form a mixture including alanine amino acid salt of formula (III), and other amino acid salt of formula (IV). The process further includes increasing the temperature of the mixture to 180° C. or less to form a reaction mixture. The process further includes continuously removing alkyl alcohol from the reaction mixture and allowing the reaction mixture to become substantially clear to form the blend.

An antimicrobial detergent composition includes the following components by mass percent: 0.1-10% of a polyester-polyether polymer, 0.01-2% of an antimicrobial agent with a halogenated phenol structure, 10-50% of a surfactant and a solvent. A 1% deionized water solution of the detergent composition has a pH value of 7.0-9.0. In the present invention, by introducing the polyester-polyether polymer into the composition, the deposition efficiency of the antimicrobial agent with the halogenated phenol structure on a fabric can be improved, a solubilization effect of the surfactant in a detergent can be reduced, and therefore, a antimicrobial effect is achieved.

An antimicrobial detergent composition includes the following components by mass percent: 0.1-10% of a polyester-polyether polymer, 0.01-2% of an antimicrobial agent with a halogenated phenol structure, 10-50% of a surfactant and a solvent. A 1% deionized water solution of the detergent composition has a pH value of 7.0-9.0. In the present invention, by introducing the polyester-polyether polymer into the composition, the deposition efficiency of the antimicrobial agent with the halogenated phenol structure on a fabric can be improved, a solubilization effect of the surfactant in a detergent can be reduced, and therefore, a antimicrobial effect is achieved.

According to the invention, the compositions and methods provide for the complete removal of labels, synthetic glues and/or adhesives from a plurality of surfaces through the use of an aqueous or non-aqueous basic organic solvent and/or an amidine, optionally in combination with surfactants, chelants, acidulants and/or additional bottle wash additives. Beneficially, the compositions and methods are suitable for use at lower temperatures and pH conditions, along with under caustic-free and/or reduced caustic conditions to effectively remove such labels, synthetic glues and/or adhesives from a surface within less than about 30 minutes.

The present invention relates to a solid composition comprising a matrix and one or more actives, said matrix comprising steramide or poly(vinyl alcohol) having a melting point higher than 150° C. It also relates to a cage and to a product comprising said solid composition and said cage, wherein said solid composition is contained in said cage. It further relates to a product comprising said solid composition and a porous solid support, wherein said solid composition is attached to said porous solid support. It further relates to a method for the controlled release of one or more actives in an automatic washing operation by providing said solid composition or any of the products to the machine in which said automatic washing operation is performed.