Chemical compositions and techniques for treating wool (and other animal hair-based) fabrics are provided. In particular, compositions and techniques for unshrinking wool fabrics and garments are provided.

Chemical compositions and techniques for treating wool (and other animal hair-based) fabrics are provided. In particular, compositions and techniques for unshrinking wool fabrics and garments are provided.

An article may include a material having a surface containing at least one zinc oxide and/or salt, and at least one antioxidant. A method of using a mixture including at least one zinc oxide and/or salt, and at least one antioxidant, as bacteriostatic agent may include: applying the mixture to a surface of an article.

A wash-durable mask is formed including a textile material, where the textile material is obtained by a process including a first process cycle. The first process cycle includes treating a starting textile material using an exhaust process, where the liquor includes one or more antimicrobial agents selected from a quaternary ammonium organosilane compound, polyglucosamine, polyhexamethylene biguanide, and propiconazole, and subjecting the treated textile to a curing at an ambient temperature of at least 150° C. and of at most 205° C.

A wash-durable mask is formed including a textile material, where the textile material is obtained by a process including a first process cycle. The first process cycle includes treating a starting textile material using an exhaust process, where the liquor includes one or more antimicrobial agents selected from a quaternary ammonium organosilane compound, polyglucosamine, polyhexamethylene biguanide, and propiconazole, and subjecting the treated textile to a curing at an ambient temperature of at least 150° C. and of at most 205° C.

A functional resin material is manufactured by the following reagents including a polyol, a polyamine, a first cross-linking agent, a second cross-linking agent, and a nanocellulose. Each of the first cross-linking agent and the second cross-linking agent includes an isocyanate block. The nanocellulose includes a repeating unit represented by formula (1),

##STR00001##

This invention relates to a method for making polyester fabric treated with a CBD powder to provide a novel CBD finish on the polyester fabric. The polyester fabric is treated with a CBD powder to provide a novel finish. The treatment process includes a washing step, wherein the treating CBD water is added to a water channel before the finishing step. Then, the polyester fabric is passed through the water channel having the treating CBD water in the ratio of 1:1000, which is one gram of CBD powder to each 1000 grams of water. The flow rate of the treating CBD water has a ratio of 5:1000, which adds 5 grams of CBD powder to each 1000 grams of water in order to apply the correct treatment of CBD water. In addition, the polyester fabric moves at a speed of approximately 20 meters per minute through the water channel, and the bathing treatment has a normal temperature of 30-35° C. The maximum temperature of the drying machine is 220° C., but has a preferred range of 170-220° C. In addition, the polyester fabric passes through the drying machine at a speed of 20 meters per minute.

A water-repellent fabric includes a base cloth and a water-repellent resin. The water-repellent resin is disposed on the base cloth, in which a method of fabricating the water-repellent resin includes the following steps. A first thermal process is performed to mix a polyol, a cross-linking agent, and a choline to form a first mixture, in which a reaction temperature of the first thermal process is between 90° C. and 120° C. A second thermal process is performed to mix the first mixture and a water repellent to form the water-repellent resin, in which the water repellent includes a hydroxyl group, an amino group, or combinations thereof, and a reaction temperature of the second thermal process is between 120° C. and 150° C.

A conductive agent can be filled in a sprayer and sprayed onto the surface of a fabric to form a conductive portion thereon. The conductive agent includes sodium hydroxide, carbomer, glycerin, disinfectant and water. The percentage by weight of sodium hydroxide is 0.15% to 0.25% of the conductive agent; the percentage by weight of carbomer is 0.45% to 0.55% of the conductive agent; the percentage by weight of the glycerin is 0.90% to 1.10% of the conductive agent; the percentage by weight of disinfectant is 0.03% to 0.07% of the conductive agent.

A conductive agent can be filled in a sprayer and sprayed onto the surface of a fabric to form a conductive portion thereon. The conductive agent includes sodium hydroxide, carbomer, glycerin, disinfectant and water. The percentage by weight of sodium hydroxide is 0.15% to 0.25% of the conductive agent; the percentage by weight of carbomer is 0.45% to 0.55% of the conductive agent; the percentage by weight of the glycerin is 0.90% to 1.10% of the conductive agent; the percentage by weight of disinfectant is 0.03% to 0.07% of the conductive agent.