An object of the invention is to provide a sheet for application to a road surface, a floor, or a wall surface of which following properties to a pasted road surface, a pasted floor, or a pasted wall surface are excellent, and of which strength is excellent and a set for forming a sheet for application to a road surface, a floor, or a wall surface, which can easily form the sheet.

The sheet for application to a road surface, a floor, or a wall surface according to the invention has a pressure sensitive adhesive layer; a base material layer that is in contact with the pressure sensitive adhesive layer and of which a tensile elastic modulus is 150 MPa or less; and a protective layer of which a tensile elastic modulus is 1,000 MPa or greater, in this order. A set for forming a sheet for application to a road surface, a floor, or a wall surface according to the invention includes: an image forming sheet including a peeling layer, a pressure sensitive adhesive layer, a base material layer that is in contact with the pressure sensitive adhesive layer and of which a tensile elastic modulus is 150 MPa or less, and an image forming layer, in this order; and a protective sheet including a peeling layer, an adhesive layer, and a protective layer of which a tensile elastic modulus is 1,000 MPa or greater, in this order.

The present invention provides a manufacture method of a graphene based resin pellet and a manufacture method of conductive seal. The present invention provides a manufacture method of a graphene based resin pellet, which employs green environmental protection flashing light for deoxidizing graphene oxide with an exposure method. The process is simple and easy to control. The method can be utilized for mass production. The present invention provides a manufacture method of conductive seal, which utilizes the graphene based resin pellet to be a conductive particle for replacing the conductive gold ball commonly used in the conductive seal according to prior art, and the process of manufacturing graphene based resin pellet in the method is green environmental protective to prevent the heavy metal pollution problem during the production procedure of the conductive gold ball; the graphene oxide used for manufacturing the graphene based resin pellet is effective presoma of massively manufacturing graphene material, and the source is widely available and the production cost can be effectively reduced.

The present invention provides a manufacture method of a graphene based resin pellet and a manufacture method of conductive seal. The present invention provides a manufacture method of a graphene based resin pellet, which employs green environmental protection flashing light for deoxidizing graphene oxide with an exposure method. The process is simple and easy to control. The method can be utilized for mass production. The present invention provides a manufacture method of conductive seal, which utilizes the graphene based resin pellet to be a conductive particle for replacing the conductive gold ball commonly used in the conductive seal according to prior art, and the process of manufacturing graphene based resin pellet in the method is green environmental protective to prevent the heavy metal pollution problem during the production procedure of the conductive gold ball; the graphene oxide used for manufacturing the graphene based resin pellet is effective presoma of massively manufacturing graphene material, and the source is widely available and the production cost can be effectively reduced.

A laminate comprising a substrate layer; a contact adhesive layer comprising a contact adhesive agent having at least one of chloroprene rubber or acrylic copolymers, as well as microspheres having an average particle size of 0.5 m or greater in the contact adhesive layer, wherein the contact adhesive layer contains from 5 parts by mass to 500 parts by mass of the microspheres per 100 parts by mass of the contact adhesive agent, and the contact adhesive layer has a plurality of protruding portions because of the the microspheres.

A laminate comprising a substrate layer; a contact adhesive layer comprising a contact adhesive agent having at least one of chloroprene rubber or acrylic copolymers, as well as microspheres having an average particle size of 0.5 m or greater in the contact adhesive layer, wherein the contact adhesive layer contains from 5 parts by mass to 500 parts by mass of the microspheres per 100 parts by mass of the contact adhesive agent, and the contact adhesive layer has a plurality of protruding portions because of the the microspheres.