A thermosetting resin composition contains an ethylene-propylene-diene copolymer (A), a terminal-modified polyphenylene ether compound (B), an inorganic filler (C), a styrene-based elastomer (D), and a fibrous filler (E).

The present invention provides a resin composition for stereolithography that is easily shapable with good shape precision while reducing sedimentation of inorganic particles during storage, and a obtained three-dimensional shaped article thereby excels in mechanical characteristics such as flexural strength and flexural modulus, in addition to having a desirable shade and good shade stability. The present invention relates to a resin composition for stereolithography comprising a polymerizable monomer (a), a photopolymerization initiator (b), an inorganic particle (c) having an average particle diameter of 5 to 500 nm, and a hindered phenolic compound (d), wherein the content of the photopolymerization initiator (b) is 0.1 to 10 parts by mass relative to 100 parts by mass of the polymerizable monomer (a), the content of the inorganic particle (c) is 50 to 400 parts by mass relative to 100 parts by mass of the polymerizable monomer (a), and the content of the hindered phenolic compound (d) is 0.1 to 500 parts by mass relative to 100 parts by mass of the photopolymerization initiator (b).

A thermoplastic resin composition includes 7% to 64% by mass of rubber-containing graft copolymer (A), 2% to 35% by mass of thermoplastic elastomer (B), 0.5% to 90% by mass of polycarbonate-based resins (C), and 0.5% to 20% by mass of inorganic compound (D) having volume average particle diameter (MV) of 1 to 200 μm (where a total of (A), (B), (C), and (D) (hereafter referred to as “total of a component (A) to a component (D)”) is 100% by mass). The rubber-containing graft copolymer (A) is a graft copolymer in which 35 to 80 parts by mass of rubber-like polymer selected from diene-based rubber, acrylic rubber, and ethylene-based rubber is graft-polymerized with 20 to 65 parts by mass of vinyl-based monomer mixture containing an aromatic-vinyl-based monomer and a vinyl-cyanide-based monomer (where a total of the rubber-like polymer and the vinyl-based monomer mixture is 100% by mass).

The present invention is directed to a rubber composition comprising 70 phr to 100 phr of at least one styrene butadiene rubber, 0 phr to 30 phr of at least one further diene-based rubber, from 40 phr to 200 phr of at least one filler, at least 5 phr of aluminum hydroxide, and at least 0.5 phr of a rosin based resin. Moreover, the present invention is directed to a tire comprising such a rubber composition.

The present invention is directed to a rubber composition comprising: 70 phr to 100 phr of at least one styrene butadiene rubber, 0 phr to 30 phr of at least one further diene-based rubber, from 40 phr to 200 phr of at least one filler, at least 5 phr of aluminum hydroxide, and at least 10 phr of at least one hydrocarbon resin selected from one or more of DCPD resins, CPD resins, and C5 resins. Furthermore, the present invention is directed to a tire comprising such a rubber composition.

The present disclosure relates to a polyamideimide film-forming composition, a method of preparing the same, and a use thereof. The polyamideimide film-forming composition according to one embodiment prevents deterioration of colorless and transparent optical properties and has excellent mechanical properties, and thus may be effectively used for a polyamideimide film or a display device including the polyamideimide film.

A nanowire heating and insulating element that includes a first layer having overlapping nanowires dispersed therein and a second layer that is two conductive portions spaced apart on either side of the first layer. Electrical potential is applied to the two conductive portions such that electricity flows through the nanowires of the first layer to heat the heating element. In addition, the heating element may be applied to existing surfaces of a room having a multiple sensor pack therein which is in wireless communication with multiple devices, or Adaptors. One or more of the adaptors supply electrical potential for the heating element and is in wireless communication with a controller which is configured to monitor usage of the Adaptors and control the Adaptors as needed to respond to usage events or environmental conditions based at least in part on readings from the sensor pack.

Described herein are component compositions comprising a blend of a polymer resin together with silica glass beads. In certain embodiments, the components demonstrate improved abrasion resistance as do the industrial fabrics produced that comprise at least one component of the instant disclosure.

A filler for resinous composition is contained and used in resinous composition, and includes: a crystalline siliceous particulate material with a crystal structure made of at least one member selected from the group consisting of type FAU, type FER, type LTA and type MFI, and/or type MWW; and a surface treatment agent including an organic silica compound reacted with or adhered to a surface of the crystalline siliceous particulate material; the filler including the surface treatment agent in an amount falling in a range allowing the filler to exhibit a negative thermal expansion coefficient.

Embodiments relate to a polyimide-based composite film, which comprises a base film comprising a polyimide-based resin; and a functional layer disposed on the base film, wherein when the side of the functional layer located opposite to the side in contact with the base film is referred to as a first side and when the side of the base film located opposite to the side in contact with the functional layer is referred to as a second side, the adhesiveness index represented by Equation 1 is 3.5 or less.