An object of the present invention is to provide a process for laminating works together that are capable of giving laminates a high bonding strength ensured therein. The process for laminating works together laminates a work composed of a resin to a work composed of a resin or glass, the process including a surface activation step of treating a laminating surface of at least the work composed of a resin with vacuum ultraviolet ray or with atmospheric pressure plasma, and a bonding step of bonding together the two works stacked on each other such that a laminating surface of one of the works abuts a laminating surface of the other work, wherein in the surface activation step, the treatment of the laminating surfaces with vacuum ultraviolet ray or with atmospheric pressure plasma is terminated when an accumulated treatment quantity of the vacuum ultraviolet ray or the atmospheric pressure plasma applied to the laminating surfaces is within an initial drop range shown in a variation curve of a water contact angle on the laminating surfaces with respect to the accumulated treatment quantity.

Adhesion-regulating agents for enhancing the adhesion values of acrylic adhesives, and methods of using adhesion-regulating agents for treating substrates for enhancing adhesion of the substrate to objects comprising an acrylic adhesive are disclosed.

The present invention relates to a specific triazine silane compound, an oligomer thereof, a mixture comprising said compound and/or said oligomer, as well as a respective storage and working solution. Furthermore, the present invention relates to a synthesis method for said specific triazine silane compound, and the use of said working solution as a surface treatment solution.

Provided is a member surface treatment method for treating a surface of a member containing a crystallizable thermoplastic resin by a dry treatment, wherein the dry treatment is performed so as to satisfy the following conditions X and Y. Condition X: .sup.d/.sup.d0 is not less than 1.0 and less than 1.4. Condition Y: .sup.p/.sup.p0 is not less than 1.2 and less than 40. .sup.d0 is a non-polar component of surface free energy of the surface before the dry treatment, .sup.d is a non-polar component of surface free energy of the surface after the dry treatment, .sup.p0 is a polar component of surface free energy of the surface before the dry treatment, and .sup.p is a polar component of surface free energy of the surface after the dry treatment.

A surface-modified thermoplastic resin in which sufficient bonding strength is applied to a thermoplastic resin and a method thereof are provided. A bonded structure capable of exhibiting sufficient bonding strength and a method thereof are provided. A thermal transfer surface-modifying sheet that can be preferably used in the method for manufacturing a surface-modified thermoplastic resin is provided. A thermoplastic resin with a thermal transfer surface-modifying sheet including the thermal transfer surface-modifying sheet is provided. The method for manufacturing a surface-modified thermoplastic resin, in which an easy adherence layer is laminated on a thermoplastic resin having a melting point of T C., the method includes: providing the easy adherence layer on at least a part of a surface of the thermoplastic resin; and performing heat welding at a temperature equal to or higher than (T50) C.

A protein adhesive of a novel sequence is disclosed. The protein adhesive according to the present disclosures enables adhesion between two non-biological materials or between a non-biological material and a biological material, thereby being applicable to various fields.

Disclosed is a one component, liquid, moisture curable polyurethane adhesive composition comprising the reaction products of a mixture including at least one polyol with an excess of one or more polyisocyanates and an acid component. In one embodiment some or all of the acid component is applied separately from the adhesive composition. The adhesive composition has enhanced bond strength to metals such as aluminum compared to currently available adhesives. The composition finds special use in panel lamination applications.

Problem To make it possible to adhere a first substrate and a second substrate over the entire circumference of each lens portion by a simpler method.

Solution After a laminate is produced by adhering a second substrate 2 to a first substrate 1 which is a lens wafer having a plurality of lens portions 11 and formed of a curable resin, the laminate is cut between the lens portions 11, and a plurality of optical units are thus manufactured. Before the second substrate 2 is adhered to the first substrate 1, surface treatment of increasing surface free energy is performed on a surface 1a of the first substrate 1 opposing the second substrate 2. After the surface treatment, an adhesive is applied to the opposing surface 1a of the first substrate 1, and surrounds a lens portion 11 corresponding within a contour of each of the plurality of optical units. After the application of the adhesive, the second substrate 2 is superimposed on the first substrate 1, and the adhesive is cured.

The present invention provides an adhered structure in which members of the same or different materials are adhered to each other with a high adhesive strength and a method for producing the adhered structure. The adhered structure of the present invention comprises a first solid member, a second solid member, and an adhesive member. The first solid member and the second solid member are adhered to each other through the adhesive member. The adhesive member contains a polymer. The polymer is chemically bonded to the first solid member and the second solid member.

An object of the present invention is to provide a process for laminating works together that are capable of giving laminates a high bonding strength ensured therein. The process for laminating works together laminates a work composed of a resin to a work composed of a resin or glass, the process including a surface activation step of treating a laminating surface of at least the work composed of a resin with vacuum ultraviolet ray or with atmospheric pressure plasma, and a bonding step of bonding together the two works stacked on each other such that a laminating surface of one of the works abuts a laminating surface of the other work, wherein in the surface activation step, the treatment of the laminating surfaces with vacuum ultraviolet ray or with atmospheric pressure plasma is terminated when an accumulated treatment quantity of the vacuum ultraviolet ray or the atmospheric pressure plasma applied to the laminating surfaces is within an initial drop range shown in a variation curve of a water contact angle on the laminating surfaces with respect to the accumulated treatment quantity.