Provided are a novel oxygen-absorbing resin composition not responsive to a metal detector, producing no odor after absorption of oxygen and having excellent oxygen-absorbing performance, and a multilayer body, container, injection-molded article and medical container using these. Further provided are an oxygen-absorbing resin composition etc. having excellent oxygen-absorbing performance in a wide range of humidity conditions from low humidity to high humidity. The oxygen-absorbing resin composition of the present invention is an oxygen-absorbing resin composition containing a polyamide compound and a transition metal catalyst, wherein the polyamide compound has at least one constituent unit having a tetralin ring. Moreover, the multilayer body, container, injection-molded article, medical container, etc. of the present invention are obtained by using the oxygen-absorbing resin composition of the present invention.

An apparel textile yarn includes a polyamide. The polyamide includes a nylon and a polyetheramine. The polyetheramine has a molecular weight of at least 1500 and an Amine Hydrogen Equivalent Weight (AHEW) of less than 10 percent higher than the idealized AHEW for the polyetheramine. The polyamide may have a moisture regain ranging from about 10% to about 30%.

An apparel textile yarn includes a polyamide. The polyamide includes a nylon and a polyetheramine. The polyetheramine has a molecular weight of at least 1500 and an Amine Hydrogen Equivalent Weight (AHEW) of less than 10 percent higher than the idealized AHEW for the polyetheramine. The polyamide may have a moisture regain ranging from about 10% to about 30%.

A composition contains at least a copolyamide (PA-1) as a component (I), produced by polymerization of at least one lactam and of a monomer mixture (M) which contains at least a C.sub.32-C.sub.40 dimer acid and at least a C.sub.4-C.sub.12 diamine; and a flame retardant (F1) as a component (II). The flame retardant (F1) is selected from melamine cyanurates, magnesium hydroxide, and phosphorus-containing flame retardants. A process can be used for preparing such compositions, and the composition can be used for producing shaped articles.

The present disclosure provides polyamide 6 copolymers polymerized from caprolactam, tetramethylene diamine, and terephthalic acid monomers. The copolymers exhibit sufficiently high second heat melting points such that they are capable of being processed using traditional melt processing operations, while also being useful for high temperature applications. The copolymer may be used as polymeric base compositions useful for a variety of applications including the manufacture of metal-replacing articles.

This tire laminate comprises a film of a thermoplastic resin composition and a layer of a rubber composition, and is characterized in that the rubber composition contains at least one type of rubber component, a condensate of formaldehyde and the compound represented by formula (1) (R.sup.1 to R.sup.5 in the formula are defined in the specification), at least one type of methylene donor and a vulcanizing agent, and in that there are 0.5-20 parts by mass of the condensate per total 100 parts by mass of the at least one type of rubber component, there are 0.25-200 parts by mass of the at least one type of methylene donor per total 100 parts by mass of the at least one type of rubber component, the mass ratio of the at least one type of methylene donor and the condensate is 0.5:1-10:1, and, based on the total amount of the at least one type of rubber component, the at least one type of rubber component includes 10-80 mass % of rubber in which the vinyl content in side chains of aliphatic unsaturated hydrocarbons exceeds 11 mol %. This tire laminate exhibits improved adhesive strength between the film of the thermoplastic resin composition and the layer of the rubber composition.

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The present invention discloses a method for preparing glatiramer acetate, comprising: (1) dissolving L-alanine NCA, L-tyrosine NCA, L-glutamic acid-γ-benzyl ester NCA, and L-ε-trifluoroacetyl-lysine NCA in 1,4-dioxane as solvent, stirring until a clarified solution is formed; (2) adding diethylamine for catalysis, stirring at 20-25° C., then slowly pouring the reaction solution into water, collecting the produced white product; (3) adding the obtained product to a solution of hydrobromic acid in acetic acid, stirring at 23.0-25.0° C., pouring the reaction solution into purified water for quenching and stirring, subjecting the mixture to suction filtration to obtain a yellow solid, after repeating 3-5 times, subjecting the solid to blast drying to remove the moisture therein; and (4) dissolving the solid obtained in step (3) in a 1M piperidine aqueous solution at room temperature and stirring, subjecting the obtained solution to dialysis, adding glacial acetic acid to adjust the pH to 5.5-7.0, and lyophilizing.

The present invention discloses a method for preparing glatiramer acetate, comprising: (1) dissolving L-alanine NCA, L-tyrosine NCA, L-glutamic acid-γ-benzyl ester NCA, and L-ε-trifluoroacetyl-lysine NCA in 1,4-dioxane as solvent, stirring until a clarified solution is formed; (2) adding diethylamine for catalysis, stirring at 20-25° C., then slowly pouring the reaction solution into water, collecting the produced white product; (3) adding the obtained product to a solution of hydrobromic acid in acetic acid, stirring at 23.0-25.0° C., pouring the reaction solution into purified water for quenching and stirring, subjecting the mixture to suction filtration to obtain a yellow solid, after repeating 3-5 times, subjecting the solid to blast drying to remove the moisture therein; and (4) dissolving the solid obtained in step (3) in a 1M piperidine aqueous solution at room temperature and stirring, subjecting the obtained solution to dialysis, adding glacial acetic acid to adjust the pH to 5.5-7.0, and lyophilizing.

A tire including a tire frame that is formed of a resin material and has a circular form, the resin material including a thermoplastic elastomer having a hard segment and a soft segment, and a polymer compound that has the same structural unit as the structural unit of the soft segment and which is different from the thermoplastic elastomer, a content of the polymer compound in the tire frame being from 0.20 parts by mass to 2.5 parts by mass with respect to 100 parts by mass of the thermoplastic elastomer contained in the tire frame.

A tire includes a circular tire frame formed from a resinous material, the resinous material including a thermoplastic elastomer, the thermoplastic elastomer including: a hard segment that does not contain an aromatic ring; a soft segment; and a connection portion that includes an aromatic ring and that connects the hard segment and the soft segment.