A non-halogen insulating wire with excellent flame resistance as well as high mechanical characteristics (wear resistance) and electrical insulation characteristics is provided. A non-halogen two-layer insulating wire includes: a conductor; and an insulating layer having an insulating inner layer which covers an outer circumference of the conductor and an insulating outer layer which covers an outer circumference of the insulating inner layer. The insulating inner layer is made of a first non-halogen resin composition which contains metal hydroxide and a base polymer (A) including polyolefin, and has a thickness of 20% to 58% of an entire thickness of the insulating layer. The insulating outer layer is made of a second non-halogen resin composition which contains metal hydroxide and a base polymer (B) including polyester resin and/or polyester elastomer resin.

An insulated wire includes a conductor, and an insulation layer provided around the conductor. The insulation layer includes an inner layer located on a conductor side and an outer layer provided around the inner layer. The inner layer includes a halogen-free resin composition including a base polymer (A). The outer layer includes a cross-linked body obtained by cross-linking a halogen-free flame-retardant resin composition including a base polymer (B) and a halogen-free flame retardant. The base polymer (A) includes a thermoplastic resin (a1) having an aromatic ring in a backbone chain. The base polymer (B) includes a polyolefin component. A thickness of the inner layer is not less than 0.03 mm and not more than 70% of a thickness of the insulation layer.

A modified poly(arylene ether) resin composition includes a mixed resin that includes a poly(arylene ether) resin, a styrene-based resin and a polyolefin resin; a flame retardant; and mineral oil. A weight-average molecular weight of the mineral oil is 460 to 1,000 g/mol. A wire is manufactured using the modified poly(arylene ether) resin composition.

Provided are a resin composition having low dielectric constants and low dielectric loss tangents before moisture absorption (initial state) and after moisture absorption with high metal foil peel strength; and a cured product, a prepreg, a metal foil-clad laminate, a resin sheet, and a printed wiring board in which the resin composition is used. The resin composition contains a compound (A) represented by Formula (M1) and a polymer (B) having a structural unit represented by Formula (V).

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Disclosed are polymer-based dielectric compositions (e.g., formulations) and materials (e.g. films) and associated devices. The polymers generally include photocrosslinkable pendant groups; for example, the polymers can include one or more coumarin-containing pendant groups.

An insulated wire includes a conductor, and an insulation layer provided around the conductor. The insulation layer includes an inner layer located on a conductor side and an outer layer provided around the inner layer. The inner layer includes a halogen-free resin composition including a base polymer (A). The outer layer includes a cross-linked body obtained by cross-linking a halogen-free flame-retardant resin composition including a base polymer (B) and a halogen-free flame retardant. The base polymer (A) includes a thermoplastic resin (a1) having an aromatic ring in a backbone chain. The base polymer (B) includes a polyolefin component. A thickness of the inner layer is not less than 0.03 mm and not more than 70% of a thickness of the insulation layer.

A cable comprising a covering having two or more different sheath layers, with the covering providing superior chemical and weathering resistance, and excellent surface feel. In a preferred embodiment, the outermost sheath layer of the covering is a thermoplastic elastomer essentially free of a flame retardant material, yet the covering achieves desirable flame retardant performance due to the presence of an inner sheath layer comprising a thermoplastic elastomer and a flame retardant, preferably halogen-free flame retardant. The outermost sheath layer also exhibits sought-after surface qualities. Methods for producing the coverings and flame retardant cables are disclosed.

The insulating resin composition for electric power cable includes a polypropylene resin (A) that is a propylene-based polymer, and a styrene-based thermoplastic elastomer (B). The temperature characteristic curve of loss tangent tan obtained by dynamic viscoelasticity measurement at a frequency of 100 rad/s has a high-temperature-side temperature region in which the loss tangent tan is 0.1 or more and 0.4 or less, and a low-temperature-side temperature region in which the loss tangent tan is less than 0.1, and the highest temperature of the high-temperature-side temperature region is 240 C. or higher.

An electronics housing includes a base body and a metal plating layer formed on a surface of the base body. The base body includes an upper cover, a lower cover and a metal ring. The upper cover and the lower cover are integrally fused by virtue of an ultra high frequency technology, and the metal ring is embedded between the upper cover and the lower cover. A nickel-deposited layer of the metal plating layer is electrolessly deposited on the surface of the base body. A copper layer of the metal plating layer is plated on the nickel-deposited layer. A nano-nickel layer of the metal plating layer is plated on the copper layer. A surface decoration layer of the metal plating layer is plated on the nano-nickel layer. The base body together with the metal plating layer defines at least one assembling hole.

An electronics housing includes a base body and a metal plating layer formed on a surface of the base body. The base body includes an upper cover, a lower cover and a metal ring. The upper cover and the lower cover are integrally fused by virtue of an ultra high frequency technology, and the metal ring is embedded between the upper cover and the lower cover. A nickel-deposited layer of the metal plating layer is electrolessly deposited on the surface of the base body. A copper layer of the metal plating layer is plated on the nickel-deposited layer. A nano-nickel layer of the metal plating layer is plated on the copper layer. A surface decoration layer of the metal plating layer is plated on the nano-nickel layer. The base body together with the metal plating layer defines at least one assembling hole.