Abstract: The present disclosure provides a low dielectric resin composition having good melt processability and excellent low dielectric characteristics in a high frequency band as compared to low dielectric materials such as liquid crystal polymers. A molded article and a film, each of which is formed from the low dielectric resin composition, a multilayer film obtained by superposing a metal foil on at least one main surface of the film, and a flexible printed wiring board which includes the film are also provided. The present disclosure includes, as a low dielectric resin composition, a resin composition which contains (A) a liquid crystal polymer and (B) a graft-modified polyolefin having a polar group. The low dielectric resin composition has a dielectric constant of 2.80 or less at a frequency of 10 GHz and a dielectric loss tangent of 0.0025 or less at a frequency of 10 GHz.

Abstract: A thermoplastic resin composition having good formability and low dielectric characteristics that have not been achieved by conventional liquid crystal polymer resin compositions, while maintaining excellent heat resistance and flame retardancy of liquid crystal polymers, and usable for information and communication devices used in a high frequency range is provided. A thermoplastic resin composition contains liquid crystal polymers (A) and a modified polyolefin (B) having a polar group. The liquid crystal polymer (A) contains a first liquid crystal polymer (a-1) that has a melting point of less than 300° C. and a second liquid crystal polymer (a-2) that has a melting point of 300° C. or more. It is preferable for the thermoplastic resin composition that the phase structure is a sea-island structure or a bicontinuous structure, and the second liquid crystal polymer (a-2) is contained at least in a sea phase or a continuous phase.

Abstract: A thermosetting resin composition comprises a component (A) that is a compound having an imide group and a carboxy group in one molecule, and a component (B) that is a polymer having a repeating unit represented by the following general formula (1). R1 and R2 in formula (1) are each independently a hydrogen atom or a methyl group. R3 in formula (1) is a hydrogen atom or any substituent, and a plurality of R3s may be bonded to form a ring structure. R4 in formula (1) is a hydrogen atom or an alkyl group. m and n in formula (1) are each independently an integer of 1 or more, and m/n may be 1 to 50.

Abstract: The present disclosure provides a low dielectric resin composition having good melt processability and excellent low dielectric characteristics in a high frequency band as compared to low dielectric materials such as liquid crystal polymers. A molded article and a film, each of which is formed from the low dielectric resin composition, a multilayer film obtained by superposing a metal foil on at least one main surface of the film, and a flexible printed wiring board which includes the film are also provided. The present disclosure includes, as a low dielectric resin composition, a resin composition which contains (A) a liquid crystal polymer and (B) a graft-modified polyolefin having a polar group. The low dielectric resin composition has a dielectric constant of 2.80 or less at a frequency of 10 GHz and a dielectric loss tangent of 0.0025 or less at a frequency of 10 GHz.

Abstract: A thermosetting resin composition contains an epoxy resin, a curing accelerator, a compound having a (meth) acryloyl group, and a compound having an acidic functional group and a weight average molecular weight of 1000 or more. The thermosetting resin composition may further contain a phosphorus-based flame retardant, organic spherical beads, and the like. The thermosetting resin composition preferably substantially does not contain a photopolymerization initiator and a thermal polymerization initiator. The thermosetting resin composition can be used, for example, for forming a cured film on a flexible printed wiring board.

Abstract: A production method for a polyimide with a black resin cured film includes a process of obtaining the black resin cured film by curing a black resin composition on the polyimide. The process of obtaining the black resin cured film includes a process of processing the black resin composition with a predetermined spray impact. A distance from a point where a line that is perpendicular to a surface of the polyimide and that passes through a substrate-adhered edge between the black resin cured film and the polyimide intersects a top portion of the black resin cured film to an edge of the top portion is 25 ?m or less.

Abstract: A printed wiring board has conductor patterns (12) having a thickness (t1) of 50 ?m or more on an insulating substrate (11). An insulating layer (5) is provided in regions (L) on the conductor patterns and on the insulating substrate in regions (S) between the conductor patterns. A thickness (tL) of the insulating layer on the conductor patterns is preferably 0.1-1 times the conductor thickness (t1). The insulating layer is formed on the conductor patterns and on the insulating substrate between the conductor patterns by printing a resin composition using screen printing and then curing the resin composition. The resin composition has a viscosity of 50-300 P at 25° C. and a thixotropic index of 1.1-3.5. A screen printing plate used for screen printing has a mesh thickness of 2.2 or more times a yarn diameter of yarns.

Abstract: A thermosetting resin composition contains an epoxy resin, a curing accelerator, a compound having a (meth) acryloyl group, and a compound having an acidic functional group and a weight average molecular weight of 1000 or more. The thermosetting resin composition may further contain a phosphorus-based flame retardant, organic spherical beads, and the like. The thermosetting resin composition preferably substantially does not contain a photopolymerization initiator and a thermal polymerization initiator. The thermosetting resin composition can be used, for example, for forming a cured film on a flexible printed wiring board.

Abstract: The present invention provides a stiffener-integrated flexible printed circuit board that has excellent electrical insulation reliability and that prevents the stiffener from being detached during a reflow process. The stiffener-integrated flexible printed circuit board including: (A) a stiffener, (B) a thermosetting adhesive, (C) an insulator film, and (D) a wiring-pattern-equipped film, (A) the stiffener, (B) the thermosetting adhesive, (C) the insulator film, and (D) the wiring-pattern-equipped film being laminated in this order, (C) the insulator film containing at least (a) a binder polymer and (b) a black coloring agent having a reflective range within the infrared range.

Abstract: A production method for a polyimide with a black resin cured film includes a process of obtaining the black resin cured film by curing a black resin composition on the polyimide. The process of obtaining the black resin cured film includes a process of processing the black resin composition with a predetermined spray impact. A distance from a point where a line that is perpendicular to a surface of the polyimide and that passes through a substrate-adhered edge between the black resin cured film and the polyimide intersects a top portion of the black resin cured film to an edge of the top portion is 25 ?m or less.

Abstract: The present invention provides a conductive-layer-integrated flexible printed circuit board that has excellent electrical insulation reliability and that prevents the electrically conductive layer from being detached during a reflow process. The conductive-layer-integrated flexible printed circuit board includes: (A) an electromagnetic-shielding conductive layer; (B) an insulator film; and (C) a wiring-pattern-equipped film, (A) the electromagnetic-shielding conductive layer, (B) the insulator film, and (C) the wiring-pattern-equipped film being laminated in this order, (B) the insulator film containing at least (a) a binder polymer and (b) a black coloring agent having a reflective range within the infrared range.

Abstract: Provided is a black photosensitive resin composition being microfabricatable due to its photosensitivity, allowing a cured film obtainable therefrom to be excellent in flexibility, being small in post-curing warpage of a substrate, being excellent in flame retardancy and electric insulation reliability, allowing a reduction in process contamination due to less outgassing during a reflow process, and avoiding a reduction in film thickness.

Abstract: In order to provide (A) a photosensitive resin composition which (i) obtains an excellent tack-free property after being applied and dried, (ii) can be subjected to fine processing so as to have photosensitivity, (iii) prepares a cured film having excellent flexibility, flame retardancy, and electrical insulation reliability, and (iv) has small warpage after being cured, (B) a resin film, (C) an insulating film, and (D) an printed wiring board provided with an insulating film, the photosensitive resin composition containing at least (A) binder polymer; (B) cross-linked polymer particles, whose polymer has a urethane bond in its molecule; (C) thermosetting resin; and (D) photo-polymerization initiator is used.

Abstract: The present invention provides a conductive-layer-integrated flexible printed circuit board that has excellent electrical insulation reliability and that prevents the electrically conductive layer from being detached during a reflow process. The conductive-layer-integrated flexible printed circuit board includes: (A) an electromagnetic-shielding conductive layer; (B) an insulator film; and (C) a wiring-pattern-equipped film, (A) the electromagnetic-shielding conductive layer, (B) the insulator film, and (C) the wiring-pattern-equipped film being laminated in this order, (B) the insulator film containing at least (a) a binder polymer and (b) a black coloring agent having a reflective range within the infrared range.

Abstract: The present invention provides a conductive-layer-integrated flexible printed circuit board that has excellent electrical insulation reliability and that prevents the electrically conductive layer from being detached during a reflow process. The conductive-layer-integrated flexible printed circuit board includes: (A) an electromagnetic-shielding conductive layer; (B) an insulator film; and (C) a wiring-pattern-equipped film, (A) the electromagnetic-shielding conductive layer, (B) the insulator film, and (C) the wiring-pattern-equipped film being laminated in this order, (B) the insulator film containing at least (a) a binder polymer and (b) a black coloring agent having a reflective range within the infrared range.

Abstract: A conductive-layer-integrated flexible printed circuit board includes: (A) an electromagnetic-shielding conductive layer; (B) an insulator film; and (C) a wiring-pattern-equipped film the electromagnetic-shielding conductive layer (A), the insulator film (B), and the wiring-pattern-equipped film (C) being laminated in this order, the insulator film (B) containing at least (a) a binder polymer and (b) spherical organic beads.

Abstract: A stiffener-integrated flexible printed circuit board includes: (A) a stiffener; (B) a thermosetting adhesive; (C) an insulator film; and (D) a wiring-pattern-equipped film, the stiffener (A), the thermosetting adhesive (B), the insulator film (C), and the wiring-pattern-equipped film (D) being laminated in this order, the insulator film (C) containing at least (a) a binder polymer and (b) spherical organic beads. This provides a stiffener-integrated FPC which is excellent in adhesion between a thermosetting adhesive of a stiffener and an insulator film and which is small in warpage.

Abstract: The present invention provides a conductive-layer-integrated flexible printed circuit board that has excellent electrical insulation reliability and that prevents the electrically conductive layer from being detached during a reflow process. The conductive-layer-integrated flexible printed circuit board includes: (A) an electromagnetic-shielding conductive layer; (B) an insulator film; and (C) a wiring-pattern-equipped film, (A) the electromagnetic-shielding conductive layer, (B) the insulator film, and (C) the wiring-pattern-equipped film being laminated in this order, (B) the insulator film containing at least (a) a binder polymer and (b) a black coloring agent having a reflective range within the infrared range.

Abstract: The present invention provides a stiffener-integrated flexible printed circuit board that has excellent electrical insulation reliability and that prevents the stiffener from being detached during a reflow process. The stiffener-integrated flexible printed circuit board including: (A) a stiffener, (B) a thermosetting adhesive, (C) an insulator film, and (D) a wiring-pattern-equipped film, (A) the stiffener, (B) the thermosetting adhesive, (C) the insulator film, and (D) the wiring-pattern-equipped film being laminated in this order, (C) the insulator film containing at least (a) a binder polymer and (b) a black coloring agent having a reflective range within the infrared range.

Abstract: A conductive-layer-integrated flexible printed circuit includes: (A) an electromagnetic-shielding conductive layer; (B) a photosensitive resin composition layer; and (C) a wiring-pattern-equipped film, (A) the electromagnetic-shielding conductive layer, (B) the photosensitive resin composition layer, and (C) the a wiring-pattern-equipped film being laminated in this order, and (B) the photosensitive resin composition layer being formed from a photosensitive resin composition containing at least (a) carboxyl-group-containing resin, (b) a photo-polymerization initiator, and (c) thermosetting resin.