The invention relates to a method for producing an adhesive tape, by: providing a tapelike textile carrier (2),

applying a thickener (7) and separately aqueous dispersion-based adhesive (8) to the textile carrier (2), the thickener (7) and the aqueous dispersion-based adhesive (8) coming into contact with each other once applied, then drying the dispersion-based adhesive (8).

The purpose of the present invention is to improve the balance between the water dispersibility and the surface barrier property of a water-dispersible sheet having a sealing layer comprising methylcellulose on at least one surface. The water-dispersible sheet with an improved balance between the water dispersibility and the surface barrier property can be obtained by using methylcellulose having a specific viscosity in the sealing layer. Provided is a water-dispersible sheet having a sealing layer comprising methylcellulose on at least one surface of a water-dispersible base paper, wherein the water-dispersible base paper comprises fibrous carboxymethyl cellulose and papermaking fiber with 500 to 750 ml CSF of Canadian standard freeness, the fibrous carboxyalkyl cellulose is alkalized, and the viscosity of a 2% aqueous solution of the methylcellulose measured by a Brookfield viscometer at 20 degree C. is 20-30 cps.

The invention relates to a method for producing an adhesive tape, by: providing a tapelike textile carrier (2), applying a thickener (7) and an aqueous dispersion-based adhesive (8) to the textile carrier (2), and then drying the dispersion-based adhesive (8).

The present invention provides a flexible wearable dry electrode and a preparation method thereof. A flexible wearable dry electrode comprises a base fabric, a transfer glue layer and a nano-conductive layer that are successively attached; the formulation of the transfer glue layer is as follows: weighed in weight percentage, 50%-90% of an elastic resin, 5%-15% of a curing agent, and 5%-35% of a filler; the formulation of the nano-conductive layer is as follows: weighed in parts by weight, 0.1-20 parts of a conductive nanomaterial, 0.1-30 parts of a dispersant, and 0.01-5 parts of a binder. The preparation method thereof is as follows: a conductive coating liquid and a transfer glue are prepared respectively, then both are successively transferred to a flexible release film and finally press-fit onto a base fabric, and subsequently, curing is achieved and the release film can then just be torn off.