A laminated glass according to an embodiment of the present invention includes a first glass plate, a second glass plate, and an interlayer film held between the first glass plate and the second glass plate. When a relative dielectric constant of the first glass plate is represented by ε.sub.g1; a relative dielectric constant of the second glass plate is represented by ε.sub.g2; a relative dielectric constant of a first interlayer film provided in a first region of the interlayer film is represented by ε.sub.m1; a reflection coefficient at an interface between the first glass plate and the first interlayer film is represented by Γ.sub.1; and a reflection coefficient at an interface between the second glass plate and the first interlayer film is represented by Γ.sub.2, the reflection coefficients Γ.sub.1 and Γ.sub.2 satisfy relations 0.0≤Γ.sub.1≤0.2 and 0.0≤Γ.sub.2≤0.2.

A laminated glass according to an embodiment of the present invention includes a first glass plate, a second glass plate, and an interlayer film held between the first glass plate and the second glass plate. When a relative dielectric constant of the first glass plate is represented by ε.sub.g1; a relative dielectric constant of the second glass plate is represented by ε.sub.g2; a relative dielectric constant of a first interlayer film provided in a first region of the interlayer film is represented by ε.sub.m1; a reflection coefficient at an interface between the first glass plate and the first interlayer film is represented by Γ.sub.1; and a reflection coefficient at an interface between the second glass plate and the first interlayer film is represented by Γ.sub.2, the reflection coefficients Γ.sub.1 and Γ.sub.2 satisfy relations 0.0≤Γ.sub.1≤0.2 and 0.0≤Γ.sub.2≤0.2.

A supported copper foil is disclosed, comprising: a poly-based film that contains polyimide and polytetrafluoroethylene; a thin copper foil; and an adhesive provided between the poly-based film and the thin copper foil, the adhesive removably coupling the poly-based film to the copper foil.

A supported copper foil is disclosed, comprising: a poly-based film that contains polyimide and polytetrafluoroethylene; a thin copper foil; and an adhesive provided between the poly-based film and the thin copper foil, the adhesive removably coupling the poly-based film to the copper foil.

A vehicle component is configured to be arranged in a path of an electromagnetic wave transmitted and received by a radar device. The vehicle component includes a dielectric layer including a dielectric, a metal layer made of metal, and a heater wire. The metal layer includes an electromagnetic wave passage portion through which the electromagnetic wave passes and an electromagnetic wave reflection portion that reflects the electromagnetic wave. The heater wire is located on the electromagnetic wave passage portion of the metal layer. The heater wire generates heat when energized.

A vehicle component is configured to be arranged in a path of an electromagnetic wave transmitted and received by a radar device. The vehicle component includes a dielectric layer including a dielectric, a metal layer made of metal, and a heater wire. The metal layer includes an electromagnetic wave passage portion through which the electromagnetic wave passes and an electromagnetic wave reflection portion that reflects the electromagnetic wave. The heater wire is located on the electromagnetic wave passage portion of the metal layer. The heater wire generates heat when energized.

A noise suppression sheet comprises a pair of metal magnetic layers and a non-magnetic metal layer interposed between the pair of metal magnetic layers, and can achieve high magnetic shield characteristics on both surfaces.

A noise suppression sheet comprises a pair of metal magnetic layers and a non-magnetic metal layer interposed between the pair of metal magnetic layers, and can achieve high magnetic shield characteristics on both surfaces.

Provided is an electromagnetic wave shielding film capable of easily exhibiting excellent conductivity between a ground member and a shielding layer when the ground member is disposed on the electromagnetic wave shielding film. In the electromagnetic wave shielding film 1, the conductive adhesive layer 11, the shielding layer 12, and the insulating layer 13 are laminated in this order, and a ratio [conductive adhesive layer/insulating layer] of Martens hardness of the conductive adhesive layer 11 in accordance with ISO14577-1 to Martens hardness of the insulating layer 13 in accordance with ISO14577-1 is 0.3 or more.

The present invention relates to a laminated glass for vehicle, including a first glass plate and a second glass plate joined to each other by an intermediate film, in which the first glass plate has a second main surface facing the intermediate film; the laminated glass has a first region with the second glass plate and a second region with no second glass plate in a plan view; the laminated glass has a filling portion that includes an electromagnetic wave transmission member and is disposed continuously from the second main surface on the second region toward a space between the first glass plate and the second glass plate in the first region to cross the entire boundary between the first region and the second region; and the second region is higher in transmittance of millimeter waves than the first region.