A new product, method and system for the removal of pet hair from fabric, furniture and other household items is provided. The inventive system utilizes a non-aerosol, non-toxic, light adhesive spray product that is formulated so that it sticks to pet hair. When applied and set, the spray product enables one to easily ball up the pet hair that is located on fabric, furniture and other household items using one's hand, a rag, or a squeegee. As a result, disposal of unwanted pet hair is easily achieved, thereby leaving the surfaces of fabric, furniture and other household items free of pet hair.

A substrate processing method includes a substrate holding step that a substrate is held by a substrate holding unit that holds the substrate horizontally, a sealing step of sealing an internal space of a chamber in a state where the substrate holding unit that holds the substrate is housed in the internal space of the chamber, a liquid film forming step of forming a liquid film of processing liquid, which processes an upper surface of the substrate, by supplying the processing liquid to the upper surface of the substrate which is held horizontally, a pressurizing step of pressurizing the internal space until a pressure of the internal space reaches a first pressure which is higher than an atmospheric pressure, by supplying a gas to the internal space, a heating step of heating the substrate such that a vapor layer of processing liquid is formed between the liquid film and the substrate in a state where the pressure of the internal space reaches the first pressure, and a liquid film excluding step of excluding the liquid film from the substrate by evaporating the processing liquid, by reducing the pressure of the internal space until the pressure of the internal space reaches a second pressure, which is lower than the first pressure, while keeping a state where the vapor layer of the processing liquid between the liquid film and the substrate is formed.

The present invention describes a method and apparatus for cleaning paint brushes or paint rollers with an encapsulating fluid that can transmit hydraulic force to the paint attached to the fibers of the roller or the bristles of the brush, such that the paint becomes broken into pieces and encapsulated by the encapsulating fluid and then removed from the paint applicator.

A doormat with a decontaminating device comprises a base on which is applied a cleaning portion, including cleaning bristles or other like structure, and occupying a portion of the base, while leaving free a support zone adapted to receive a decontaminating device constituted by a block of sheet elements overlapping on one another, each sheet element being tearable away.

Abrasive paint remover compositions including a solvent system or composition and an abrasive system or composition and methods for making and using same, where the compositions may be formulated with no methylene chloride (MC).

A method for cleaning batch material from an extrusion die includes introducing at least one gel composition into the die in a manner sufficient to purge the batch material from the die. After the batch material is purged from the die, the die can be treated further so that the gel composition is liquefied and flows from the die.

A method for removing solidified ink or varnish from a surface includes applying a cleaning agent to the ink on the surface. The cleaning agent applied to the ink on the surface is substantially solvent-free and water-based and reduces adhesion between the ink and the surface without dissolving the ink. An adhesive side or face of a single-sided or single face adhesive element is applied to the surface. As the adhesive element is removed from the surface, the ink that has been treated with the cleaning agent but is undissolved adheres to the adhesive element and is thus removed from the surface together with the adhesive element without splitting.

A method of removing contaminants from a surface of a gas turbine engine component protected by a diffusion coating that comprises an additive layer on the surface of the component and a diffusion zone in the surface of the component. The method includes subjecting the surface containing contaminants to laser beam pulses to remove contaminants from the component such that contaminants on the surface of the component are removed without damaging or removing the diffusion zone of the diffusion coating. Methods for controlled removal of at least a portion of a thickness of a diffusion coating from a coated superalloy component are also provided.

According to one embodiment, a substrate treatment device includes a placement stand configured to rotate a substrate, a cooling part configured to supply a cooling gas into a space between the placement stand and the substrate, a liquid supplier configured to supply a liquid on a surface of the substrate opposite to the placement stand side, a detector configured to detect a state of the liquid on the surface of the substrate, and a controller controlling at least one of a rotation speed of the substrate, a flow rate of the cooling gas, or a supply amount of the liquid. The controller sets the liquid on the surface of the substrate to be in a supercooled state, obtains a temperature of the liquid in the supercooled state at a start of freezing, and is configured to calculate a removal ratio of a contamination.

A method of removing contaminants from a surface of a gas turbine engine component protected by a diffusion coating that comprises an additive layer on the surface of the component and a diffusion zone in the surface of the component. The method includes subjecting the surface containing contaminants to laser beam pulses to remove contaminants from the component such that contaminants on the surface of the component are removed without damaging or removing the diffusion zone of the diffusion coating. Methods for controlled removal of at least a portion of a thickness of a diffusion coating from a coated superalloy component are also provided.