A cleaning liquid includes water, a surfactant, and glycol ether. The surfactant is an acetylene surfactant or a silicone surfactant. A content ratio of the glycol ether is at least 5% by mass and no greater than 15% by mass relative to a mass of the cleaning liquid. Preferably, a contact angle of the cleaning liquid to an austenitic stainless steel plate is no greater than 40 degrees.

A cleaning liquid includes water, a surfactant, and glycol ether. The surfactant is an acetylene surfactant or a silicone surfactant. A content ratio of the glycol ether is at least 5% by mass and no greater than 15% by mass relative to a mass of the cleaning liquid. Preferably, a contact angle of the cleaning liquid to an austenitic stainless steel plate is no greater than 40 degrees.

A cleaning liquid contains water, a surfactant, and glycol ether. The surfactant includes both a silicone surfactant and a betaine surfactant. The glycol ether has a percentage content of at least 5.0% by mass and no greater than 15.0% by mass relative to the mass of the cleaning liquid. The cleaning liquid has a viscosity at 25° C. of 10.0 mPa.Math.s.

A cleaning liquid contains water, a surfactant, and glycol ether. The surfactant includes both a silicone surfactant and a betaine surfactant. The glycol ether has a percentage content of at least 5.0% by mass and no greater than 15.0% by mass relative to the mass of the cleaning liquid. The cleaning liquid has a viscosity at 25° C. of 10.0 mPa.Math.s.

This disclosure relates to a method to deink plastic material comprising or provided with ink. The method comprises the step of contacting the plastic material with an oxidizing inorganic acid having a standard electrode potential of at least 0 V. The disclosure also relates to a method to delaminate and deink plastic material by contacting the plastic material with an oxidizing inorganic acid and with a short chain or medium chain fatty acid. Furthermore, the disclosure relates to an installation to deink or to delaminate and deink plastic material.

This disclosure relates to a method to deink plastic material comprising or provided with ink. The method comprises the step of contacting the plastic material with an oxidizing inorganic acid having a standard electrode potential of at least 0 V. The disclosure also relates to a method to delaminate and deink plastic material by contacting the plastic material with an oxidizing inorganic acid and with a short chain or medium chain fatty acid. Furthermore, the disclosure relates to an installation to deink or to delaminate and deink plastic material.

Formulations for removal of deposits, the formulation prepared according to specific manufacturing processes. The formulation may be used to clear and clean deposits from surfaces. In some examples, the deposits may include spray paint deposits on concrete, brick and metal surfaces such as graffiti. In some examples, the formulations may include active salt agents comprising molybdenum and aluminum cations.

Formulations for removal of deposits, the formulation prepared according to specific manufacturing processes. The formulation may be used to clear and clean deposits from surfaces. In some examples, the deposits may include spray paint deposits on concrete, brick and metal surfaces such as graffiti. In some examples, the formulations may include active salt agents comprising molybdenum and aluminum cations.

The invention relates to an aqueous stripping composition for the removal of polymeric surface sealants on metal surfaces, said stripping composition comprising an alkalizing agent, a polymer splitting agent, a swelling agent, and a cloud point booster, wherein said polymer splitting agent is at least one gluconate wherein said swelling agent is at least one compound selected from the group consisting of glycol ethers and aliphatic alcohols having 3 to 9 carbon atoms. The inventive aqueous stripping composition is capable to remove polymeric sealants like e.g. polyurethane sealants, polyethylene sealants, polyethylene waxes, polyacrylic sealants, polysilicate sealants, and the like.

The invention relates to an aqueous stripping composition for the removal of polymeric surface sealants on metal surfaces, said stripping composition comprising an alkalizing agent, a polymer splitting agent, a swelling agent, and a cloud point booster, wherein said polymer splitting agent is at least one gluconate wherein said swelling agent is at least one compound selected from the group consisting of glycol ethers and aliphatic alcohols having 3 to 9 carbon atoms. The inventive aqueous stripping composition is capable to remove polymeric sealants like e.g. polyurethane sealants, polyethylene sealants, polyethylene waxes, polyacrylic sealants, polysilicate sealants, and the like.