The present invention relates to a textile fiber structure comprising man-made fibers fortified by a binder comprising a polymer latex obtained from the emulsion polymerization in aqueous medium of a mixture of ethylenically unsaturated monomers comprising: (a) an aliphatic conjugated diene (b) a vinyl aromatic compound; (c) an ethylenically unsaturated silane bearing at least one silicon bonded hydrolysable group, and (d) an ethylenically unsaturated acid
and to its use in construction applications, and to the use of the above binder to fortify textile fiber structures.

This disclosure is related to a class of metal-ion induced hydrophobic polymers and method of producing such class of compounds by a one-step solution immersion process. Specifically, a metal-ion Induced hydrophobic polymer or melamine sponge (MII-HMS) is disclosed. Such polymer or sponge is demonstrated to be highly hydrophobic and oleophilic and exhibits excellent oil absorption capabilities, being able to absorb a wide range of oils and organic solvents up to 71 to 157 times of its own weight.

Primer composition for digital inkjet printing on plastic polymer films possibly laminated with: one or more plastic films of the same or different polymer and/or aluminium and/or paper comprising: a) at least one resin having affinity with said plastic polymers; b) at least one aliphatic or aromatic C2-CI 0 organic mono-, bi- or tricarboxylic acid, possibly being replaced in the aliphatic chain or aromatic ring with one or more halogen atoms and having pKA between 0.2 and 5; c) an organic solvent selected from at least one ether, at least one ester, at least one aliphatic alcohol, at least one ketone, at least one C6-C 10 alkane, or from those belonging to the positive list defined by Swiss Ordinance 817.023.21 Annex 10 and/or mixtures thereof, said organic solvent having a boiling point between 35 and 250? C.

Polyurethane composites having improved mechanical strength and linear coefficient of thermal expansion (LCTE) and methods of manufacturing are described herein. The composites can include (a) a polyurethane formed by the reaction of (i) one or more isocyanates selected from the group consisting of diisocyanates, polyisocyanates, and mixtures thereof, and (ii) one or more polyols; (b) a filler in an amount of from greater than 50% to 90% by weight, based on the total weight of the polyurethane composite, (c) from 0.25% to 10% by weight, based on the total weight of the composite, of glass fibers; and (d) from 0.025% to 5% by weight, based on the total weight of the composite, of polyester fibers. The polyester fibers can have an average aspect ratio of length to diameter of from 5:1 to 600:1. The LCTE (40 C. to 70 C.) of the polyurethane composite can be 2.210-5/ C. or less.

A nanocomposite includes a core comprising a first polymer, a shell disposed about the core, the shell comprising a sulfonated polyester, the first polymer and sulfonated polyester are different, and a plurality of silver nanoparticles disposed throughout the shell layer.

A color concentrate comprising a high molecular weight thermoplastic saturated polyester resin carrier that can be used in the manufacturing of colored clear plastics.

The present invention relates to a method for producing a functional yarn, in which zirconium phosphate having a multiple-layered structure is used as a deodorizing material and a melted polymer is spun through a spinning nozzle having a multi-lobal sectional shape. According to the present invention, the melted polymer contains layered fine zirconium phosphate inorganic particles having low hardness, and thus the abrasion of production process equipment can be minimized during fiber production and also an excellent deodorizing property and an excellent sweat-absorbing and quick-drying property are exhibited.

The invention is a composition that can prevent formation in, or scavenge undesirable organic materials from, a polymer matrix. The composition contains cyclodextrin and particles of activated carbon. The composition can scavenge thermal decomposition products that can be produced during melt processing of a polymer, contaminants inherent in a polymer, or other types of impurities from a polymer matrix that otherwise may elute into the air, a water supply, or an ingestible material such as a food, a drug, or a beverage. Other aspects of the invention are blends of the composition with polymeric materials, methods of making blends, articles containing the composition, and methods of making articles containing the composition.

An ink contains an admixture of a copper nanoparticle, a copper precursor molecule (e.g. a copper-aminediol complex), and a polymeric binder, the polymeric binder containing a polyester, polyimide, polyether imide or any mixture thereof having surface 5 functional groups that render the polymeric binder compatible with and/or soluble in a diol. The ink may be deposited on a substrate providing a trace that is conductive and directly solderable and has better mechanical strength than copper inks containing other types of polymeric binders.

An object of an embodiment of the present invention is to provide poly(3-hydroxyalkanoate)-based expanded particles and a poly(3-hydroxyalkanoate)-based foamed molded product both of which are obtained by a single expansion treatment and have a high expansion ratio. Provided are poly(3-hydroxyalkanoate)-based expanded particles and a poly(3-hydroxyalkanoate)-based foamed molded product both of which include a poly(3-hydroxyalkanoate) composition containing a non-ionic water-soluble polymer.