Disclosed herein are a thermoplastic resin sheet having excellent mechanical strength and excellent conformability during molding, a laminated sheet using such a thermoplastic resin sheet, and a molded body. The thermoplastic resin sheet includes a thermoplastic resin containing a polyolefin resin, a polyamide resin, and a compatibilizer, wherein the compatibilizer is a modified elastomer having a reactive group that reacts with the polyamide resin. The laminated sheet includes a base layer containing a polyolefin resin and the thermoplastic resin sheet bonded to one surface of the base layer. The molded body includes a base body containing a polyolefin resin and the thermoplastic resin sheet or the laminated sheet bonded to one surface of the base body.

An acrylic resin film is provided that may include graft copolymer particles (A) with a multilayer structure and graft copolymer particles (B) with a multilayer structure, wherein the graft copolymer particles (A) may have an average particle size in the range of 20 to 150 nm, the graft copolymer particles (B) may have a larger average particle size than the graft copolymer particles (A). The graft copolymer particles (A) may include a cross-linked elastomer (A1) and a graft polymer layer (A2), the graft polymer layer (A2) being closer to a surface layer than the cross-linked elastomer (A1). Further, a constituent unit may be derived from an acrylate with an alkyl ester moiety having two or more carbon atoms constitutes 8% or less by mass of the graft polymer layer (A2), the graft copolymer particles (B) may contain a cross-linked elastomer (B1).

A resin composition contains an epoxy compound, a maleimide compound, a phenolic compound, core-shell rubber, and an inorganic filler. The maleimide compound has an N-phenyl maleimide structure. The content of the maleimide compound falls within a range from 10 parts by mass to less than 40 parts by mass with respect to 100 parts by mass in total of the epoxy compound, the maleimide compound, and the phenolic compound.

Thermoplastic resin composition comprising: (a1) at least one styrene-acrylonitrile copolymer component A1, (a2) at least one acrylonitrile styrene acrylate graft copolymer A2 as impact modifier, (a3) optionally at least one thermoplastic polymer A3 other than components A1 and A2, (b) at least one pigment B, (c) at least one hindered amine UV light stabilizer C1 and at least one UV absorber C2 different from C1, and (d) optionally further polymer additives D, other than components B, C1, C2, and E, (e) at least one metal scavenger component E.

A resin composition is provided. The resin composition comprises: (A) a compound having a structure of formula (I),

##STR00001## wherein R.sub.1 is an organic group; and (B) a vinyl-containing elastomer, wherein the weight ratio of the compound having the structure of formula (I) to the vinyl-containing elastomer is 20:1 to 1:1.

The present invention provides: an epoxy resin composition which has satisfactory handleability during refrigerated transport, is stable and inhibited from increasing in viscosity for a long period even when held at ordinary temperature, well infiltrates into reinforcing fibers, can be sufficiently rapidly cured at a temperature as high as 180° C., and gives molded objects that can be smoothly demolded in a demolding step after the molding since the resin has sufficiently cured and has high heat resistance imparted thereto; and a fiber-reinforced composite material obtained using the epoxy resin composition. The epoxy resin composition for fiber-reinforced composite materials according to the present invention is an epoxy resin composition for use in producing fiber-reinforced composite materials which comprises an epoxy resin and a hardener, and includes tetraglycidyldiaminodiphenylmethane [A], 4,4′-methylenebis(2-isopropyl-6-methylaniline) [B], and a bisphenol F type epoxy resin [C] in a specific proportion. When the viscosities of the resin at 30° C. and 80° C. are expressed by η30 and η80 (unit, mPa.Math.s), respectively, then the epoxy resin composition satisfies 200≤η30/η80≤500 and 50≤η80≤180.

The purpose of the present invention is to manufacture a bright-hued modified cellulose fiber blended resin composition more easily than before while utilizing a method of defibrillating a cellulose fiber and uniformly dispersing a cellulose nanofiber in a resin. A method for manufacturing the modified cellulose fiber blended resin composition includes: (i) a step of adding 5 to 45 parts by mass of water with respect to 100 parts by mass of a modified cellulose fiber (A) modified with a hydrophobizing agent (a) to obtain a hydrous cellulose fiber (A′); and (ii) a step of defibrillating the modified cellulose fiber while kneading the hydrous cellulose fiber (A′) with a thermoplastic resin and/or a rubber (B), and removing the water to attain a water content ratio of 1% or less after kneading.

Provided are resin composition and a molded article produced therefrom, the resin composition comprising: a polycarbonate resin; a rubber-modified aromatic vinyl-based copolymer resin; a conductive additive including a carbon fiber and a carbon nanotube; talc; and a foaming agent, wherein the carbon fiber and the carbon nanotube are contained in a weight ratio of 1:0.1 to 1:0.4.

A polypropylene-based graft polymer is prepared by graft polymerization of a vinyl monomer onto polypropylene-based resin particles containing 100 parts by mass of a polypropylene resin and 5 to 25 parts by mass of an acid-modified olefin resin and having a volume-average particle size of 50 to 850 nm. A thermoplastic resin composition includes the polypropylene-based graft polymer. A molded article is obtained by molding the thermoplastic resin composition.

The present disclosure is an acryl film formed from a main dope solution including an acryl resin shown in the following formula 1 and CSR particles, and peel strength measured in peeling speed of 0.5 mpm is 20 gf/2 inch or less, tear strength is 6 gf or more, has excellent peel strength, thereby visual stain by thickness unevenness is improved, and having excellent tear strength and good brittleness. ##STR00001## a and b are an integer and 1 or more. MMA-BMA wherein, MMA is methyl methacrylate unit and BMA is butyl methacrylate unit.