An aqueous ink jet composition according to the present disclosure includes: C.I. Disperse Red 364 as a first component; a second component which is a dispersant having a chemical structure of at least one of a sulfo group and a salt thereof; and a third component having an indigo skeleton and a chemical structure of at least one of a sulfo group and a salt thereof.

An aqueous ink jet composition according to the present disclosure includes: C.I. Disperse Red 364 as a first component; a second component which is a dispersant having a chemical structure of at least one of a sulfo group and a salt thereof; and a third component having an indigo skeleton and a chemical structure of at least one of a sulfo group and a salt thereof.

It would be helpful to provide a styrene-based resin molded body that has excellent dielectric constant, dielectric loss tangent, and color tone, and with little degradation in properties due to usage environment. The present disclosure is a styrene-based resin composition containing a styrene-based resin (A1) having styrene-based monomer units as repeating units. The styrene-based resin composition includes 6 μg or less of a catechol derivative contained in the styrene-based resin (A1) per gram of the styrene-based resin (A1), and the total amount of dimers of the styrene-based monomer units and trimers of the styrene-based monomer units contained in the styrene-based resin (A1) is 5000 μg or less per gram of the styrene-based resin (A1). The styrene-based resin composition has a dielectric constant of 3 or less and a dielectric loss tangent of 0.02 or less.

It would be helpful to provide a styrene-based resin molded body that has excellent dielectric constant, dielectric loss tangent, and color tone, and with little degradation in properties due to usage environment. The present disclosure is a styrene-based resin composition containing a styrene-based resin (A1) having styrene-based monomer units as repeating units. The styrene-based resin composition includes 6 μg or less of a catechol derivative contained in the styrene-based resin (A1) per gram of the styrene-based resin (A1), and the total amount of dimers of the styrene-based monomer units and trimers of the styrene-based monomer units contained in the styrene-based resin (A1) is 5000 μg or less per gram of the styrene-based resin (A1). The styrene-based resin composition has a dielectric constant of 3 or less and a dielectric loss tangent of 0.02 or less.

It would be helpful to provide a styrene-based resin molded body that has excellent dielectric constant, dielectric loss tangent, and color tone, and with little degradation in properties due to usage environment. The present disclosure is a styrene-based resin composition containing a styrene-based resin (A1) having styrene-based monomer units as repeating units. The styrene-based resin composition includes 6 μg or less of a catechol derivative contained in the styrene-based resin (A1) per gram of the styrene-based resin (A1), and the total amount of dimers of the styrene-based monomer units and trimers of the styrene-based monomer units contained in the styrene-based resin (A1) is 5000 μg or less per gram of the styrene-based resin (A1). The styrene-based resin composition has a dielectric constant of 3 or less and a dielectric loss tangent of 0.02 or less.

To provide resin composition, a pellet and a powder for use in new powder additive manufacturing, as well as a shaped article using the same, and a method for manufacturing such shaped article. The resin composition comprises a polybutylene terephthalate that contains a terephthalic acid-derived structural unit and a 1,4-butanediol-derived structural unit, for use in powder additive manufacturing, the resin composition having a value (α), defined by mathematical formula [1] below, of 40 or smaller:

α=|(MVR.sub.1−MVR.sub.0)/MVR.sub.0|×100  [1] where, MVR.sub.0 is melt volume flow rate (in cm.sup.3/10 min), and MVR.sub.1 is melt volume flow rate (in cm.sup.3/10 min).

To provide resin composition, a pellet and a powder for use in new powder additive manufacturing, as well as a shaped article using the same, and a method for manufacturing such shaped article. The resin composition comprises a polybutylene terephthalate that contains a terephthalic acid-derived structural unit and a 1,4-butanediol-derived structural unit, for use in powder additive manufacturing, the resin composition having a value (α), defined by mathematical formula [1] below, of 40 or smaller:

α=|(MVR.sub.1−MVR.sub.0)/MVR.sub.0|×100  [1] where, MVR.sub.0 is melt volume flow rate (in cm.sup.3/10 min), and MVR.sub.1 is melt volume flow rate (in cm.sup.3/10 min).

An aqueous dispersion and uses therefor. The aqueous dispersion includes a Component (a), Component (b) and Component (c). Where Component (a) is a polymer prepared by the polymerization of monomers comprising a vinyl ester and an ethylene, where Component (b) is an acrylate-based polymer and where Component (c) is water. A film that is formed from the aqueous dispersion has a glass transition temperature of less than or equal to −7° C. The aqueous dispersion the polymer of the Component (a) has a pot life of longer than or equal to 4 hours after being mixed with cement. Where Component (a) is present in an amount of higher than 35%, based on the total weight of the aqueous dispersion and Component (b) is present in an amount of less than or equal to 20%, based on the total weight of the aqueous dispersion.

An aqueous dispersion and uses therefor. The aqueous dispersion includes a Component (a), Component (b) and Component (c). Where Component (a) is a polymer prepared by the polymerization of monomers comprising a vinyl ester and an ethylene, where Component (b) is an acrylate-based polymer and where Component (c) is water. A film that is formed from the aqueous dispersion has a glass transition temperature of less than or equal to −7° C. The aqueous dispersion the polymer of the Component (a) has a pot life of longer than or equal to 4 hours after being mixed with cement. Where Component (a) is present in an amount of higher than 35%, based on the total weight of the aqueous dispersion and Component (b) is present in an amount of less than or equal to 20%, based on the total weight of the aqueous dispersion.

A latex composition includes a latex of a conjugated diene polymer (A) having a glass transition temperature of 10° C. or less and a latex of a polymer (B) having a glass transition temperature of more than 10° C., wherein the value of (CS(B)−CS(A)) is more than 0% by weight, where a chemical stability of the latex of the conjugated diene polymer (A) to CaCl.sub.2, when the solids concentration of the latex is 20% by weight, is defined as CS(A) (% by weight), and a chemical stability of the latex of the polymer (B) to CaCl.sub.2, when the solids concentration of the latex is 20% by weight, is defined as CS(B) (% by weight).