The present invention discloses a method for manufacturing a laundry detergent, characterized by the following steps: (a) incorporating oxygen donors and their activators in a waxy matrix which is surrounded by an ionic polymer layer for providing a capsule system, (b) incorporating the capsule system into a liquid washing detergent. Furthermore, a liquid washing detergent is disclosed, characterized by a capsule system comprising a waxy matrix which is surrounded by an ionic polymer layer and into which oxygen donors and their activators are incorporated. Furthermore, a method for manufacturing a heavy-duty laundry detergent wipe is disclosed, characterized by the following steps: (a) incorporating oxygen donors and their activators in a waxy matrix which is surrounded by an ionic polymer layer for providing a capsule system, (b) incorporating the capsule system into a dispersion comprising a liquid washing detergent and a water insoluble functional additive, (c) applying the dispersion provided with the capsule system to a carrier material which is solid at ambient temperature. Furthermore, a method for manufacturing a heavy-duty laundry detergent wipe is disclosed, characterized by the following steps: (a) incorporating oxygen donors and their activators in a waxy matrix which is surrounded by an ionic polymer layer for providing a capsule system, (b) incorporating the capsule system into a carrier material which is solid at ambient temperature, (c) applying a dispersion comprising a liquid washing detergent and a water insoluble functional additive to the carrier material provided with the capsule system. Furthermore, a heavy-duty laundry detergent wipe is disclosed, comprising a carrier material which is solid at ambient temperature and a dispersion comprising a liquid washing detergent and a water insoluble functional additive and which has been applied to the carrier material, characterized in that the heavy-duty detergent wipe further comprises a capsule system which has been incorporated into the dispersion or directly into the carrier material and which comprises oxygen donors and their activators incorporated into a waxy matrix surrounded by an ionic polymer layer.

Provided is a multi-function liquid cleaning composition. The cleaning composition may be diluted to produce a composition for a variety of different purposes. The cleaning solution is particularly effective as a degreaser for heavy grease removal. Heavy grease includes the type that may accumulate on motor vehicles. The cleaning formulation is environmentally benign and non-toxic.

An automatic dishwashing composition is provided including 20 to <98.6 wt %, based on weight of the automatic dishwashing composition, of a builder; 0.2 to 20 wt %, based on weight of the automatic dishwashing composition, of a nonionic surfactant; 0.1 to <10 wt %, based on weight of the automatic dishwashing composition, of a substance of formula I

##STR00001##

wherein n is 2 and wherein each M.sup. is a counter ion; >0.005 to 6 wt %, based on weight of the automatic dishwashing composition, of a protease; and wherein the weight of the substance of formula I divided by the weight of the protease in the automatic dishwashing composition is <20.

The invention includes ware detergent compositions which provides superior cleaning and removal of oily and fatty soils, without the production of excessive foam. According to the invention applicants have discovered that use of a quaternary cationic surfactant in combination with a nonionic low foaming surfactant can provide oily soil removal from ware that is superior to traditional warewash detergent formulations. Compositions for alkaline, preferably solid, warewash detergents are disclosed, as well as their use in dish machines and methods of manufacture.

Cleaning compositions may include at least 0.001 ppm of a polypeptide having hexosaminidase activity. The cleaning compositions may include a polypeptide having at least 60% sequence identity to the mature polypeptide shown in one or more of the motif(s) of SEQ ID NO 7, SEQ ID 8, SEQ ID 9, SEQ ID 10, SEQ ID 11, or combinations thereof. The cleaning compositions may be or include laundry detergents, fabric finishers, acidic cleaning agents, neutral cleaning agents, alkaline cleaning agents, hand dishwashing agents, automatic dishwasher compositions, or combinations thereof.

A two-in-one solid detergent composition includes the following raw material components based on 100% weight: 10% to 30% of (a) a forming agent, 10% to 50% of (b) a surfactant, 5% to 20% of (c) a softener, 10% to 30% of (d) a forming aid, and optionally 0.1% to 1% of (e) a softening conditioner, 0.1% to 1% of (f) a forming stabilizer, 1% to 10% of (g) a water softener, 1% to 10% of (h) a stain solubilizer or 0.1% to 5% of (i) a flavoring agent, and balance of deionized water.

A washing method and detergent composition for cleaning soiled cloth diaper laundry is disclosed specifically tailored for simple home use without employing known skin irritants and without persistent residue accumulation. The present invention discloses a one- or two-wash-cycle method for cleaning cloth diapering washables as well as a clean-rinsing, highly-effective detergent composition comprising a surface active agent, a water softener, a surface tension reducer, a bleaching agent and a pH balancing agent.

An aqueous vehicle cleaner for removing a wide range of different types of traffic film using a variety of manual or mechanical washing systems. The aqueous vehicle cleaner includes at least one anionic surfactant that is selected from the preferred group consisting of linear alkyl benzyl sulfonates, alpha olefin sulfonates, secondary alkane sulfonates and alkyl sulfates, or selected from a more general group consisting of linear alkyl benzyl sulfonates, alpha olefin sulfonates, secondary alkane sulfonates, alkyl sulfates, alkyl ether sulfates, phosphate esters, alkyl ethoxy carboxylates, sulfosuccinates, a sodium-based cleaning agent, 12.5% sodium hypochlorite by weight, and an alkaline agent such that the aqueous vehicle cleaner has a pH of 11.5. Optional additional ingredients may include a chelating agent, preferably an aminocarboxylic acid chelating agent, at least one non-ionic or amphoteric surfactant, at least one hydrotrope, and at least one silicate. No cationic surfactants are included.

Disclosed herein is a new process for the preparation of polyamide microcapsules. Also disclosed herein are the polyamide microcapsules. Also disclosed herein are Perfuming compositions and consumer products including the microcapsules, including in the form of home care or personal care products.

Process for manufacturing granules or powders comprising the steps of (a) providing an aqueous solution or slurry of (A) at least one chelating agent according to general formula (I a) [CH.sub.3CH(COO)N(CH.sub.2COO).sub.2]M.sub.3-XH.sub.X (I a) wherein M is selected from alkali metal cations and ammonium, same or different, and x is in the range of from 0.01 to 1.0 or (I b) [OOCCH.sub.2CH.sub.2CH(COO)N(CH.sub.2COO).sub.2]M.sub.4-XH.sub.X (I b) wherein M is as defined above, and x in formula (I b) is in the range of from 0.01 to 2.0, and (B) at least one polymer selected from (B1) polyaspartates with an average molecular weight M.sub.w in the range of from 1,000 to 20,000 g/mole, and (B2) copolymers comprising, in copolymerized form, () at least one ester of an ethylenically unsaturated mono- or dicarboxylic acid, and () at least one ethylenically unsaturated N-containing monomer, and (b) spray drying or granulating said solution or slurry.