This disclosure presents a streamer filler material that is a low density gel formed from a two-part, mix-curable polymer, and methods of making streamers using such materials. One embodiment of the filler material features a two-part silicone gel mixed with a paraffinic oil. The two-part silicone gel can make up 15% to 25%, by weight or volume, of the mixture. Methods of making such materials include forming a first unreactive mixture having a first reactant, promoter, and/or catalyst and a second unreactive mixture having a second reactant, promoter, and/or catalyst and mixing the first and second mixtures in a paraffinic oil system to make a gel. The streamer can be loaded with the filler by pumping or extruding the mixture.

Disclosed is a bituminous composition in the form of granules, each granule including a core and a coating and having a mass for approximately one hundred particles of from 0.5 g to 2 g, the core including from 40 wt. % to 60 wt. % of a binder matrix; from 30 wt. % to 40 wt. % of a polymer; from 4 wt. % to 6 wt. % of a compatibilizing agent; and from 2 wt. % to 15 wt. % of an anti-adhesive filler; and the coating including an anti-sticking agent. The invention relates also to a method for preparing the composition, and to the use thereof in bitumen plants.

(Co)polymer matrix composites including a porous (co)polymeric network; a nonvolatile diluent, and a multiplicity of thermally-conductive particles distributed within the (co)polymeric network; wherein the thermally-conductive particles are present in a range from 15 to 99 weight percent, based on the total weight of the (co)polymer matrix (including the thermally-conductive particles and the nonvolatile diluent). Optionally, the (co)polymer matrix composite volumetrically expands by at least 10% of its initial volume when exposed to a temperature of at least 135° C. Methods of making and using the (co)polymer matrix composites are also disclosed. The (co)polymer matrix composites are useful, for example, as heat dissipating or heat absorbing articles, as fillers, thermal interface materials, and thermal management materials, for example, in electronic devices, more particularly mobile handheld electronic devices, power supplies, and batteries.

According to the present invention, a microporous membrane contains a polyolefin resin and inorganic particles; the primary particle diameter of the inorganic particles is 100 nm or less; the content of the inorganic particles is 10-60% by mass or 10% by mass or more but less than 40% by mass based on the mass of the microporous membrane; and the retention time at 150° C. is less than 200 seconds or the retention time at 145° C. is more than 1 second but less than 300 seconds in the thermal behavior evaluation of the microporous membrane.

Disclosed herein is a thermoplastic gel prepared from a composition comprising: a styrene triblock copolymer; a styrene diblock copolymer; an oil extender; and optionally an additive. The composition comprises greater than 21 wt % up to about 35 wt % of a combination of the styrene triblock copolymer and the styrene diblock copolymer. The thermoplastic gel exhibits a very low oil bleed out of less than about 5% after 1500 hours at 60° C. and 120 kPa.

A masterbatch for foam molding which contains a base resin and heat-expandable microspheres. The base resin contains EPDM and the masterbatch contains the heat-expandable microspheres in an amount ranging from higher than 300 parts by weight to 750 parts by weight to 100 parts by weight of the base resin and has a Moony viscosity ML 1+4 (100° C.) ranging from 15 to 90. Also disclosed is a method for producing a masterbatch for foam molding, a resin composition containing the masterbatch for foam molding, and a foam-molded product manufactured by molding the resin composition.

Gel compositions for filling cables, such as communication cables, in particular gel compositions containing microspheres, cables containing said gels, and methods of preparing such gels.

[Problem] An object of the present invention is to provide a foam including a thermoplastic resin and rubber as a main component, in which a micronized product of a cellulose fiber is uniformly dispersed, and uniformity and mechanical properties are excellent. [Solution] A foam includes a modified cellulose fiber (A) covalently bonded with a diene-based polymer, a thermoplastic resin and/or rubber (B), and a diene-based polymer (C) having a functional group capable of covalently bonding with a cellulose fiber, in which the fiber (A) is micronized, the fiber (A) has a content of 0.05 to 20% by mass, and the thermoplastic resin and/or rubber (B) has a glass transition point of −130° C. to 120° C.

This invention relates to gel compositions for filling cables, such as communication cables, in particular to gel compositions containing microspheres, to cables comprising said gels, and to methods of preparing such gels

The present invention relates to a thermally conductive sheet 12 containing a matrix resin (A) and thermally conductive inorganic particles (B). The matrix resin (A) contains an addition-curable silicone polymer (A1) and a non-reactive silicone oil (A2), the addition-curable silicone polymer (A1) accounting for 20% by mass or more and less than 100% by mass and the non-reactive silicone oil (A2) accounting for more than 0% by mass and 80% by mass or less relative to 100% by mass of the matrix resin (A). The thermally conductive sheet contains the thermally conductive inorganic particles (B) in an amount of 1000 to 3000 parts by mass relative to 100 parts by mass of the matrix resin (A). The thermally conductive sheet 12 is a cured sheet. 16 indicates an oil bleeding region. The present invention provides a thermally conductive sheet with reduced oil bleeding, and a method for producing the same.