Obtained is a polypropylene fiber that selectively satisfies any of the following requirements: the degree of amorphous orientation being not lower than 85%; the degree of crystalline orientation being not lower than 90%; the degree of crystallinity being 60-75%; the strength being not lower than 7 cN/dtex; the initial elastic modulus being not lower than 100 cN/dtex; the rupture elongation being 10-30%; and the single fiber fineness being 3-20 dtex. This polypropylene fiber, in which a crystalline chain and an amorphous chain are highly oriented and that has high strength and high initial elastic modulus, is produced through a two-stage drawing method and by controlling the drawing tension of the final stage while maintaining production speed.

A method and an apparatus (11) for predicting thermal runaway safety of a power battery and a computer readable storage medium are provided. The method includes: obtaining initial battery temperature of a first power battery; conducting calculation to obtain temperature of the first power battery that has undergone thermal shock for duration; and determining, based on a power battery thermal runaway model, whether thermal runaway occurs on the first power battery.

Modified thermoplastic hydrocarbon thermoplastic resins are provided, as well as methods of their manufacture and uses thereof in rubber compositions. The modified thermoplastic resins are modified by decreasing the relative quantity of the dimer, trimer, tetramer, and pentamer oligomers as compared to the corresponding unmodified thermoplastic resin polymers, resulting in a product that exhibits a greater shift in the glass transition temperature of the elastomer(s) used in tire formulations. This translates to better viscoelastic predictors of tire tread performance, such as wet grip and rolling resistance. The modified thermoplastic resins impart remarkable properties on various rubber compositions, such as tires, belts, hoses, brakes, and the like. Automobile tires incorporating the modified thermoplastic resins are shown to possess excellent results in balancing the properties of rolling resistance, tire wear, snow performance, and wet braking performance.

A subsurface monitoring system and method is provided for measuring a rate of change in an amount of a reactive material within a subsurface formation using measurements of thermal parameters at one or more positions within the subsurface without the need for background correction which may lead erroneous calculations and require additional monitoring equipment. The measured thermal parameters may be used to determine the heat generated by the degradation of the reactive material. The method may include measuring a first temperature near the surface of a subsurface region and a second temperature further from the surface. In some instances, an estimated location of a planar subsurface heat source/sink due to exothermic degradation reactions within the subsurface may be selected. With the derived thermal parameters and the estimated location of the subsurface heat source/sink, change rates for the reactive materials in the subsurface region may be determined or estimated.

The present disclosure relates generally to thermal analyses having direct application of thermal energy to a sample.

To provide a resin film which comprises an ethylene/tetrafluoroethylene copolymer and which is to be used as, for example, a rubber plug lamination film to prevent breakage at the time of producing a laminated rubber plug. The resin film comprises an ethylene/tetrafluoroethylene copolymer and is characterized in that the product of the value of the endothermic peak height H (mW/mg) obtained by its DSC-analysis and the haze (%) measured at a thickness of 100 m, is from 0.1 to 0.2 (mW/mg.Math.%).

A pharmaceutical composition of high drug loading comprising an active pharmaceutical ingredient (API) and pharmaceutical acceptable additives, which include glass-solution forming additive and/or eutectic-mixture forming additive, is provided. The composition is dispersed uniformly to form a hybrid solid dispersion consisting of crystalline-suspension, glass-solution and/or eutectic-mixture, where the crystalline API is uniformly distributed in the hybrid solid dispersion and exists in nano/micro particle size range. The amorphous API, when present, is uniformly distributed in the hybrid solid dispersion. The API may exist in different chemical and/or physical forms. The API is present in an amount of from more than about 50% wt/wt to about 90% wt/wt with respect to the total amount of the active pharmaceutical ingredient and the pharmaceutically acceptable glass-solution forming and/or eutectic-mixture forming additives. At least about 50% wt/wt of the API is dispersed in the crystalline-suspension and at least about 5% wt/wt of the API is dispersed in the glass-solution and/or eutectic-mixture. The pharmaceutical composition offers excellent dissolution rate, superior chemical and physical stability, and minimum drug-drug/drug-excipient incompatibility. The composition is beneficial for reducing the overall tablet/capsule size for low water-soluble drugs requiring high drug loading or dosage, including combination drugs.

The invention is a resin composition containing following polymer (A) and polymer (B), wherein a content of the polymer (A) is 1 to 80 wt % based on the total weight of the polymer (A) and the polymer (B), polymer (A) is a alicyclic structure-containing hydrogenated polymer having a heat distortion temperature of 170 C. or higher, polymer (B) is a polymer incompatible with the polymer (A) and having a heat distortion temperature of lower than 170 C., a microporous film formed by using the resin composition, a separator including the microporous film, and a secondary battery having the separator. One aspect of the invention provides a resin composition suitably used as a raw material for a separator of a secondary battery excellent in safety, a microporous film obtained by forming the resin composition, a separator including the microporous film, and a secondary battery having the separator.

A polyester including at least one crosslinkable moiety is described. Each crosslinkable moiety includes at least one crosslinkable pendent group. A ratio of a total number of the at least one crosslinkable pendent groups to a total number of ester groups in the polyester may be in a range of 0.0001 to 0.5.

A battery includes: a positive electrode; a negative electrode; and an electrolyte. At least one of the electrolyte and the negative electrode contains an aluminum hydroxide, at least a part of a surface of the aluminum hydroxide being modified.