摘要:
The object of the present invention is to provide a polyimide film, a flexible printed wiring board consisting thereof, and a polyimide molding, wherein various metal compounds are added to improve their properties and to provide them with noble properties.
摘要:
Polyimide/metal laminates having a polyimide film and a metal layer laminated thereon, wherein the polyimide film contains titanium element and flexible print wiring boards with the use of the same are disclosed. The polyimide/metal laminates are excellent in adhesion under the ordinary conditions and, moreover, can sustain the adhesive strength at a high ratio after exposure to high temperature or high temperature and high humidity. Owing to these characteristics, these polyimide/metal laminates are appropriately usable in flexible print wiring boards, multi-layered print wiring boards, rigid flex wiring boards, tapes for TAP, semiconductor packages such as CFOs and multi chip modules (MCMs), magnetic recording films, coating films for aerospace materials and filmy resistance elements.
摘要:
To provide a polyimide film having an original film width of at least 500 mm, whose isotropy in a width direction is improved to have uniform properties, which polyimide film has been apt to cause property difference in the width direction by continuous molding. The polyimide film has an original film width of at least 500 mm and a thickness of at most 50 μm, wherein the maximum value of MOR-c is at most 1.35 and a tensile elastic modulus is at least 5.0 GPa at any part of the film. The polyimide film is prepared by the method which comprises steps of: forming a green sheet containing a volatile component, and heating the green sheet by transferring the same through a furnace with both ends of the green sheet being fixed, wherein at the heating step, the original film has an orientation axis angle θ of a positive value at both ends in the original film width direction, and temperature is lower than the boiling point of a main volatile component in a zone where the original film is transferred for a distance equal to the film width between both fixed ends.
摘要:
Polyimide/metal laminates having a polyimide film and a metal layer laminated thereon, wherein the polyimide film contains titanium element and flexible print wiring boards with the use of the same are disclosed. The polyimide/metal laminates are excellent in adhesion under the ordinary conditions and, moreover, can sustain the adhesive strength at a high ratio after exposure to high temperature or high temperature and high humidity. Owing to these characteristics, these polyimide/metal laminates are appropriately usable in flexible print wiring boards, multi-layered print wiring boards, rigid flex wiring boards, tapes for TAP, semiconductor packages such as CFOs and multi chip modules (MCMs), magnetic recording films, coating films for aerospace materials and filmy resistance elements.
摘要:
It is an object of the present invention to provide a component for plating suitably used in, for example, producing a printed circuit board, a solution, and a printed circuit board including the component, the component for plating having satisfactory adhesion to an electroless plating film provided on a surface of the component even when the surface roughness of the surface of the component is small. The object is achieved by a component for electroless plating including at least a surface a for electroless plating, the surface a having a surface roughness of 0.5 μm or less in terms of arithmetic average roughness measured with a cutoff value of 0.002 mm, and the surface a containing a polyimide resin having a siloxane structure.
摘要:
The present invention provides a laminate used for a printed wiring substrate and a multilayer printed wiring board which have high heat resistance, wiring patterns with narrow pitches, vias with a small diameter, insulating layer having uniform thickness and stable adhesion between the metal layer and the synthetic resin film, and which contribute to miniaturization, high capability and functional improvement of electronic equipment. The present invention relates to a metal laminate comprising a metal layer laminated on one or both faces of a synthetic resin film, wherein the metal layer is a metal foil having a thickness of at most 5 μm. The present invention also relates to a laminate comprising a metal layer having a thickness of at most 5 μm on one or both faces of a synthetic resin film, wherein the synthetic resin film is a polyimide film obtained by immersing a partially imidized or partially dried poly(amide acid) film in a solution of a compound containing at least one element selected from the group consisting of aluminum, silicon, titanium, manganese, iron, cobalt, copper, zinc, tin, antimony, lead, bismuth and palladium or by applying the solution to the film, and then completely drying and imidizing the poly(amide acid) film, the resulting polyimide film containing at least one of the elements.
摘要:
The present invention provides a laminate having a two-layer or three-layer structure including a non-thermoplastic polyimide film and a thermoplastic polyimide layer provided on one or both of the surfaces thereof, the surface of the thermoplastic polyimide layer being surface-treated; a laminate including a polymer film and a layer provided on one or both of the surfaces thereof, the layer including a polyimide resin composition comprising a polyimide resin with a specified structure and a thermosetting component; and a resin film and a laminate including the same which provided one, at least, of surface having a Ra1 value of arithmetic mean roughness of 0.05 μm to 1 μm measured with a cutoff value of 0.002 mm, and a Ra1/Ra2 ratio of 0.4 to 1, Ra2 being a value measured with a cutoff value of 0.1 mm. These laminates can provide a printed circuit board with excellent adhesiveness, on which a micro-wiring circuit can be formed.
摘要:
A laminate comprising a polyimide and a conductor layer, which is obtained by forming at least one conductor layer directly on the surface of a thermoplastic polyimide, is thermally fused by pressurizing and heating to thereby enhance the adhesion strength between the thermoplastic polyimide and the conductor layer. Thus, a laminate having an excellent adhesion strength between a conductor layer and a polyimide film can be obtained without performing any surface roughening treatment or using any adhesive metal layer.
摘要:
The present invention provides a laminate having a two-layer or three-layer structure including a non-thermoplastic polyimide film and a thermoplastic polyimide layer provided on one or both of the surfaces thereof, the surface of the thermoplastic polyimide layer being surface-treated; a laminate including a polymer film and a layer provided on one or both of the surfaces thereof, the layer including a polyimide resin composition comprising a polyimide resin with a specified structure and a thermosetting component; and a resin film and a laminate including the same which provided one, at least, of surface having a Ra1 value of arithmetic mean roughness of 0.05 μm to 1 μm measured with a cutoff value of 0.002 mm, and a Ra1/Ra2 ratio of 0.4 to 1, Ra2 being a value measured with a cutoff value of 0.1 mm. These laminates can provide a printed circuit board with excellent adhesiveness, on which a micro-wiring circuit can be formed.
摘要:
A plating-target material of the present invention includes a layer-A to be subjected to electroless plating. The surface roughness of the layer-A is such that an arithmetic mean roughness Ra measured at a cutoff value of 0.002 mm is less than 0.5 μm. The 90° anti-peeling adhesive force of the layer-A is 1.0 N/25 mm or less. Furthermore, the layer-A includes a polyimide resin. Further, a plating-target material of the present invention includes the layer-A to be subjected to electroless plating. The layer-A includes a resin, and the sheet containing the layer-A has an elongation modulus of 1.8 GPa or less. The plating-target material of the present invention has a high adhesiveness to an electroless plating film formed on its surface, even if the surface is not so rough, and it is possible to favorably form electroless plating on the entire surface. Accordingly, the plating-target material of the present invention is suitably applicable to manufacturing of a printed-wiring board or the like. Furthermore, the present invention provides a polyamic acid solution, and a polyimide resin solution for use in the plating-target material, and a printed-wiring board made by using them.