Abstract: Methods, devices, and systems for manufacturing ophthalmic lenses are described in which lens bodies are placed in cavities of lens carriers that are fluidly connected to reservoirs, flow ducts and sub-cavity base channels that provide enhanced washing and wet processing of the lenses.

Abstract: A stability enhancement agent for use in a solid detergent and solid detergent compositions is described. Stability enhancement is provided by a hydratable salt, water and a polyepoxysuccinic acid or polyepoxysuccinic acid metal salt binding agent forming a dimensionally stable composition. Preferred polyepoxysuccinic acid or polyepoxysuccinic acid metal salts have a molecular weight of between about 400 and about 1,500 g/mol. The stability enhancement composition for use in a solid detergent and solid detergent compositions are preferably biodegradable and substantially free of phosphorus and NTA.

Abstract: The embodiments describe methods for controlling the particles generated when cleaning and drying a wafer in a spin rinse dryer (SRD) module. In some embodiments, the substrate surface is cooled by dispensing deionized (DI) water across the surface of the substrate, while the substrate rests on the SRD chuck. In addition, a method for controlling the particles generated when sleeves in a processing module or SRD contact a substrate surface during a clamping operation or when the sleeves are removed from the substrate surface is provided. A bottom edge or lip of the sleeves and/or the surface of the wafer contacting the sleeve is wetted during clamping/unclamping operations. Alternatively, the substrate may be wetted prior to clamping/unclamping operations.

Abstract: Embodiments of the invention generally provide methods for cleaning a UV processing chamber. In one embodiment, the method includes flowing an oxygen-containing gas through a plurality of passages formed in a UV transparent gas distribution showerhead and into a processing region located between the UV transparent gas distribution showerhead and a substrate support disposed within the thermal processing chamber, exposing the oxygen-containing gas to UV radiation under a pressure scheme comprising a low pressure stage and a high pressure stage to generate reactive oxygen radicals, and removing unwanted residues or deposition build-up from exposed surfaces of chamber components presented in the thermal processing chamber using the reactive oxygen radicals.

Abstract: A cleaning composition including a sulfosuccinate functionalized alkyl polyglucoside, a water conditioning agent and water. In one embodiment, the cleaning composition is substantially free of alkyl phenol ethoxylates. The cleaning composition is capable of removing soils including up to 20% proteins. The cleaning compositions include a biorenewable, environmentally friendly alternative to nonyl phenol ethoxylates and exhibit superior cleaning of food and oily soils.

Abstract: A portable cleaning article includes a coated capsule and cleaning agent, in which the cleaning agent is contained within the coated capsule, the characteristic in that: the coated capsule having a thin-film layer and an oil layer that is coated over the surface of the thin-film layer to form a portable cleaning article. When the coated capsule is brought into contact with water by the user, the coated capsule dissolves in water for the cleaning agent to exert its cleaning function.

Abstract: An ultrasonic cleaning method of using ultrasonic vibrations to clean an object that is immersed in a cleaning liquid in a cleaning tank is provided. The method includes generating a frequency modulated signal including at least two frequency modulated portions having modulation widths different from each other with a single frequency as a center frequency, such that among the at least two frequency modulated portions a frequency modulated portion having a smaller modulation width is generated at a timing when a frequency modulated portion having a larger modulation width reaches the center frequency. The method further includes generating the ultrasonic vibrations based on the frequency modulated signal and transferring the ultrasonic vibrations to the cleaning tank to clean the object.

Abstract: Cleaning processes for cleaning semiconductor devices or semiconductor tooling during manufacture thereof generally include contacting the semiconductor devices or semiconductor tooling with an antioxidant to form an insoluble adduct followed by solubilizing the adduct with a basic aqueous cleaning solution.

Abstract: A method and system for cleaning a substrate in a multi-module cleaning assembly is provided. The method begins by receiving the substrate into the cleaning module. A cleaning chemistry, at a temperature elevated from an ambient temperature, is applied onto a top surface of the substrate. Concurrent with application of the cleaning chemistry, vapors are exhausted from the cleaning chemistry through a port located below a bottom surface of the substrate with the vapor exhaustion providing a negative pressure relative to a pressure external to the cleaning module. The application of the cleaning chemistry is terminated, followed by termination of the exhausting of the vapors. The substrate is dried after the flowing of inert gas is terminated.

Abstract: The invention relates to a cleaner and/or disinfectant for medical and/or surgical elements and apparatuses which is formulated as a powder. It comprises at least one peroxide, at least one acylating agent for releasing peracetic acid from the peroxide in aqueous solution, and also at least one nonionic surfactant. According to the invention, it is provided that it comprises agents for adjusting a pH of a 2% strength aqueous solution to pH 7.5 to 9 and is formulated as granules, where peroxide and/or acylating agent are coated with nonionic surfactant.

Abstract: A cleaning composition includes water, glycerine, at least one alkyl polyglycoside and a surface modification polymer. The surface modification polymer acts to provides for initial cleaning or pretreatment of the hard surface and provides a hydrophilic coating or barrier layer on the surface which provides residual cleaning to the hard surface for an extended number of cleanings. The composition has an alkaline pH of from about 8 to 10.

Abstract: A composition includes an anionic polysaccharide hybrid polymer composition and 2-phosphonobutane-1,2,4-tricarboxylic acid. In one embodiment, the polysaccharide hybrid polymer composition includes a polysaccharide residue present in an amount from approximately 5% to approximately 90% by weight of the polysaccharide hybrid polymer composition and a residue of at least one ethylenically unsaturated monomer present in an amount from approximately 10% to approximately 75% by weight of the polysaccharide hybrid polymer composition.

Abstract: Some demonstrative embodiments of the invention include an apparatus and a method for removing the support structures from three-dimensional objects, in which the support removal is carried out using techniques that decrease the duration of the support removal process and increase the quality of the final three-dimensional objects. This method also ensures the safe removal of the support structures without damage to the three-dimensional object.

Abstract: A wet wiper for cleaning accumulated oral debris from removable dental appliances. The wet wiper comprises a water insoluble substrate and a physiologically acceptable cleansing composition. Methods for cleaning removable dental appliances are also provided, such methods comprising the step of contacting, for a time sufficient to reduce oral debris, the removable dental appliances, with a wet wiper of the present invention.

Abstract: Disclosed is a method for cleaning deposits from one or more parts of an engine fuel delivery system, the method comprising introducing into the engine fuel delivery system a cleaning composition comprising (a) one or more aromatic hydrocarbon solvents; and (b) one or more propylene glycol ethers.

Abstract: A measurement canister (100) for a moping system and method is disclosed. The measurement canister includes a canister base (103) and a tapered sidewall (104) extending from the canister base to a rim (105). A plurality of demarcations (110,111,112,113,114,115,116,117,118,119) can be disposed along the sidewall. Each demarcation can comprise an indicator of a number of mop heads capable of being saturated by a volume of liquid in the canister having the each demarcation as an upper limit. The measurement canister can be included as a component of a kit (1000) and can be used in accordance with methods (1100) described below.

Abstract: A heavy oil cleaning composition comprising: a) a blend of dibasic esters comprising dialkyl methylglutarate and at least one of a dialkyl adipate or dialkyl ethylsuccinate; b) at least one terpene; and c) at least one surfactant. Also described are methods for delivering a solvent at reduced concentration comprising the steps of: a) obtaining a terpene-based solvent; and b) mixing the terpene-based solvent with a carrier fluid (the carrier fluid comprising a microemulsion of i) a blend of dibasic esters selected from the group consisting of dialkyl methylglutarate, dialkyl adipate, dialkyl ethylsuccinate, dialkyl succinate, dialkyl glutarate and any combination thereof, ii) at least one surfactant selected from the group consisting of a terpene alkoxylate, an alcohol alkoxylate and any combination thereof; and iii) water) in order to obtain a mixture to clean heavy oils.

Abstract: The club cleaner, conditioner and protectant comprises alpha-olefins, low-odor aromatic solvents; and at least one base oil selected from the base oil group consisting of Hydroisomerized high base oils and HT Severe Hydro-cracked Base oils; as well as other (optional) ingredients. Also disclosed is a method for producing this product and related product-by-process. This product uses a formulated cleaning mixture to clean and restore the face of the club while rejuvenating the grips. The invention when sprayed on the clubface removes foreign materials and when wiped dry protects the face of the clubs from harsh stains, caused by soils, grass and chemicals related to fertilizers. In experimental testing, the invention increases drive distances by reducing sidespin and increasing backspin. The club is left with a factory-like finish making it easy to wipe clean of soiling. The invention when applied to the grips restores the surface to the new feel.

Abstract: A cleaning composition includes an alkali metal silicate, a polymer including maleic acid, vinyl acetate and alkyl acrylate monomers, and optionally water. The cleaning composition can include approximately 10% and approximately 90% by weight of at least one alkali metal silicate, greater than or equal to approximately 0.1% by weight of the polymer containing maleic acid, vinyl acetate and alkyl acrylate monomers, and approximately 0% to approximately 80% by weight water.

Abstract: Renewable, non-volatile cleaning compositions incorporating ethyl ester solvents are disclosed. Preferred compositions employ non-volatile C8-16 ethyl ester solvents. All-purpose cleaning compositions incorporating the non-volatile C8-16 ethyl ester solvents, further include an alkyl polyglycoside surfactant, an alcohol ethoxylate surfactant, and water. Preferably the compositions are free of anionic, cationic and amphoteric surfactants and/or co-solvents. The invention also discloses methods employing the non-volatile solvent all-purpose cleaning compositions.

Abstract: An apparatus for preventing stiction of a three-dimensional MEMS (microelectromechanical system) microstructure, the apparatus including: a substrate; and a plurality of micro projections formed on a top surface of the substrate with a predetermined height in such a way that a cleaning solution flowing out from the microstructure disposed thereabove is discharged.

Abstract: Systems and methods for dry cleaning articles using siloxane solvents are provided. In the systems and methods according to the present invention, the siloxane solvent suspends impurities extracted from the articles being cleaned, and the system filters off the impurities, thereby cleaning the articles.

Abstract: Methods for cleaning a surface of a substrate and for increasing the useable lifetime of a photomask substrate are provided. In one method, the surface of a substrate having a contaminating particulate disposed thereon is cleaned by directing a laser towards the substrate, generating a temperature increase in the substrate and transferring thermal energy from the substrate to the particulate to decompose the particulate. The laser has a wavelength that is substantially the same as a local maximum of the substrate absorption spectrum.

Abstract: A method for cleaning a component comprises a first stage including the steps of: (i) loading a component into the cleaning chamber of a flush station, (ii) directing a deionized water stream through first filter means, (iii) introducing carbon dioxide into the filtered water stream, (iv) directing the carbonated water stream into a fluid passage to be cleaned in the component, and (v) collecting the dirty water stream after it passes through the component and directing the collected dirty water stream through second filter means for reuse. The method can further include a second stage including the steps of: (vi) loading the component into a testing chamber of a testing station, (vii) directing a deionized water stream through third filter means, (viii) directing the filtered water stream into the fluid passage in the component, and (ix) collecting the water stream after it passes through the component and directing the collected water stream into a particle counter.

Abstract: Methods and apparatus for cleaning a substrate (e.g., wafer) in the fabrication of semiconductor devices utilizing electrorheological (ER) and magnetorheological (MR) fluids to remove contaminant residual particles from a surface of the substrate are provided.

Abstract: A method for removing microorganisms and small insects from fabric or animal's hair comprising applying and removing an adhesive composition comprising at least one adhesive polymer and a plasticizer, wherein the amounts of this plasticizer range from about 5 to about 45% by weight of the total weight of the wet adhesive composition. The adhesive composition used in the method of the invention thanks to the presence of high plasticizer concentrations are very fluid to allow said micro-organisms or small insects to be removed and, at the same time, they leave no residue on the fabric, or animal's hair. The present invention further relates to adhesive compositions to be used in the method of the invention further containing active ingredients which are released from the adhesive composition during the step of removing the organisms from the fabric or the animal's hair.

Abstract: The invention relates to a method of cleaning the surface of a material that is coated with an organic substance. The inventive method is characterized in that it comprises the following steps, consisting in: introducing the material into a treatment chamber, having a pressure of between 10 mbar and 1 bar therein, which is supplied with a gas stream containing at least 90 volume percent of oxygen; and generating a plasma by passing an electric discharge between the surface of the material and a dielectric-covered electrode in order to break down the organic substance under the action of the free radicals O thus produces. The invention also relates to an installation that is used to carry out said method.

Abstract: Improved methods for stripping photoresist and removing etch-related residues from dielectric materials are provided. In one aspect of the invention, methods involve removing material from a dielectric layer using a hydrogen-based etch process employing a weak oxidizing agent and fluorine-containing compound. Substrate temperature is maintained at a level of about 160° C. or less, e.g., less than about 90° C.

Abstract: In a method of cleaning a fiber cap of a laser probe tip, a glass fiber comprising a cap body having an internal cavity and an opening to the cavity at a proximal end is provided. A particulate collecting member is also provided. An electrical charge is applied to the particulate collecting member. A distal end of the particulate collecting member is then inserted through the opening and into the cavity of the fiber cap. Particles located within the cavity are attracted to the particulate collecting member. The attracted particles attach to the particulate collecting member. The particulate collecting member is then removed from the cavity.

Abstract: A cleaning composition includes a fatty acid salt constituting up to about 50% by weight of the composition, an anti-slip agent constituting up to about 20% by weight of the composition, a soil resistant agent constituting up to about 20% by weight of the composition and water. Methods of cleaning coated and uncoated surfaces, and particularly stone surfaces, are also provided.

Abstract: A composition including HCl, urea, complex substituted keto-amine-hydrochloride, an alcohol, an ethoxylate, and a ketone is provided for performing hydraulic fracturing or oil or gas wells, solubilizing calcium carbonate, or lowering salt and bicarbonate levels in irrigation systems.

Abstract: A surface treatment method of a metal member according to an embodiment of the invention includes removing an oily substance on the metal member by using gas-liquid two fluids that are obtained by boiling heated and pressured water under ordinary pressure. A surface treatment device of a metal member for removing an oily substance on the metal member includes self-generation two fluids production means for producing gas-liquid two fluids by boiling heated and pressured water under ordinary pressure, and a surface treatment room carrying out a surface treatment by bringing the self-generation two fluids into contact with the metal member.

Abstract: A process of cleaning resin out of an electrical generator parallel ring is provided. The process includes inserting a cleaning ball mounted on a shaft into the parallel ring; verifying a location of the cleaning ball; rotating the shaft; measuring a rotational speed of the cleaning ball with a tachometer; and removing resin with the cleaning ball.

Abstract: The invention discloses synergistic combinations of surfactants blends and cleaning composition. In certain embodiments a surfactant system is disclosed which includes extended anionic surfactants, linker surfactants, and a multiply charged cation component. This system forms emulsions with, and can remove greasy and oily stains, even those comprised of non-trans fats. In another embodiment anionic surfactants are combined with a solvent, and amine oxide to remove sunscreen stains. The compositions may be used alone, as a pre-spotter or other pre-treatment or as a part of a soft surface or hard surface cleaning composition.

Abstract: Objects can be dried by a quick release of superheated vapor. After providing a superheated vapor to a chamber, the superheated vapor can be released. During the release of pressure, liquid droplets can be evaporated, drying the object.

Abstract: Formulations comprising (A) at least one compound selected from aminocarboxylates and polyaminocarboxylates, and salts and derivatives thereof, (B) at least one zinc salt, and (C) at least one homopolymer or copolymer of ethyleneimine.

Abstract: A method for cleaning containers, in particular bottles of glass or plastics, and a cleaning machine with at least one cleaning medium, with the containers cleaned at least in one station preferential for the cleaning result and/or in a procedure step with at least essentially chemical-free cleaning media. The cleaning medium is advantageously a granular material, in particular granular ice, carried under pressure with compressed air or compressed water. The cleaning machine suited for carrying out the method includes downstream of an unpacking and presoaking station, a pre-cleaning station with a high pressure water blasting pre-cleaning section, and subsequently an intensive cleaning station with at least one intensive cleaning section to which a pressure blasting system for chemical-free, granular material and a carrier medium are associated, and a disinfection station following the intensive cleaning station.

Abstract: The present invention relates to a liquid hard surface cleaning composition comprising melamine foam fibers, wherein the composition is packaged in a container.

Abstract: The invention provides a liquid detergent composition containing (a) a nonionic surfactant obtained by adding ethylene oxide and an alkylene oxide with from 3 to 5 carbon atoms to a compound represented by R—OH (wherein R represents an alkyl group or an alkenyl group with from 8 to 18 carbon atoms) under a specified condition, (b) an anionic surfactant and (c) a water-miscible organic solvent in specified ratios, respectively.

Abstract: A dry cleaning method of a substrate processing apparatus includes forming a metal oxide by oxidizing a metal film adhered to the inside of a processing chamber of the substrate processing apparatus; forming a complex by reacting the metal oxide with ?-diketone; and sublimating the complex to be removed. A cleaning gas containing oxygen and ?-diketone is supplied into the processing chamber while heating the inside of the processing chamber. A flow rate ratio of oxygen to ?-diketone in the cleaning gas is set such that a formation rate of the metal oxide is lower than a formation rate of the complex.

Abstract: A process chamber for processing semi-conductor wafers. The chamber includes at least one rotor within the process chamber. The rotor is adapted to receive and/or process semi-conductor wafers. The top of the process chamber also includes a tiltable rim. This rim tilts from a non-inclined position to an inclined position. The wafers may be loaded into and unloaded from the process chamber when the rim is in its inclined position.

Abstract: A wafer fabrication process with removal of haze formation from a pellicalized photomask surface is provided. The wafer fabrication process includes pre-print wafer processing, wafer print processing using at least one photomask having a pellicle, photomask clean processing, wafer print processing using the photomask, and post-print wafer processing. The photomask clean processing step includes directing a laser through the pellicle towards an inorganic particle disposed on the photomask to remove the particle from the photomask by thermal decomposition.

Abstract: A method of removing a polymer material from an optical fiber assembly includes: disposing a liquid metallic material proximate to the polymer material, the polymer material being bonded to the optical fiber; heating the liquid metallic material to a temperature sufficient to burn the polymer material and de-bond the polymer material from a surface of the optical fiber; and removing the polymer material and liquid metal from the surface of the optical fiber.

Abstract: A method for cleaning plated polished disks used in hard drive media is provided. The method includes positioning plated polished disks in a first batch scrubber having multiple first brushes, wherein each of the plated polished disks is positioned between two of the first brushes, and scrubbing the plated polished disks with the first brushes. The method further includes positioning the plated polished disks scrubbed in the first batch scrubber in a second batch scrubber having multiple second brushes, wherein each of the plated polished disks is positioned between two of the second brushes, and scrubbing the plated polished disks with the second brushes.

Abstract: A hard floor surface care process comprising a process of identifying, cleaning, polishing, and protecting manmade and natural stone hard floor surfaces having a single surface or multi-surface quality. The hard floor surface care process comprising an acid reactive or nonreactive hard floor surface identifying process; an emulsifying solution, agitating, and toweling cleaning process; a polishing process utilizing a lubricating solution with a polishing chemistry or pad, and a protecting process utilizing a protecting chemistry selected as a function of the identifying process.

Abstract: An aqueous composition comprising surfactant, water, and a suspending agent comprising microfibrous cellulose that is characterized by a particle size distribution of the microfibrous cellulose that provides for increased structuring of the composition to suspend material.

Abstract: In a substrate processing method according to the present invention, a cleaning liquid nozzle supplies a rinsing liquid to a central portion of a substrate and thereafter moves from a position corresponding to the central portion of the substrate to a position corresponding to a peripheral, edge portion thereof while supplying the rinsing liquid before stopping at the position corresponding to the peripheral edge portion. Next, a drying liquid nozzle moves from the position corresponding to the peripheral edge portion to the position corresponding to the central portion while supplying a drying liquid. Then, the drying liquid nozzle is kept stationary at the position corresponding to the central portion for a predetermined period of time while supplying the drying liquid. Thereafter, a gas nozzle moves from the position corresponding to the central portion to the position corresponding to the peripheral edge portion while supplying an inert gas.

Abstract: A cleaning composition that contains film flakes with beneficial ingredients. The composition with the film flakes releases the beneficial ingredients when it is delivered to the target surface.

Abstract: A process that degasses a structured surfactant composition that comprises at least one surfactant, water, and at least one suspending agent chosen from polysaccharides, gums, and celluloses. By degassing the composition, the suspending agent can form a structured system. Gas, such as air bubbles, disrupts the formation of the structuring system, which reduces the ability of the composition to suspend materials.

Abstract: Formulations comprising (A) at least one compound selected from aminocarboxylates and polyaminocarboxylates, and salts and derivatives thereof, (B) at least one salt of bismuth, and (C) at least one homopolymer or copolymer of ethyleneimine.