What are described are a polymer mixture or polymer blend comprising polybutylene succinate and polybutylene succinate-co-adipate, a composite material or compound comprising polybutylene succinate and polybutylene succinate-co-adipate and/or said polymer mixture or polymer blend and one or more filler constituents, an article and/or single-use article comprising or consisting of said composite material or compound, and processes for producing the aforementioned composite material or compound or the aforementioned article or single-use article. Also described are the use of the polymer mixture or polymer blend for production of said composite material or compound, and the use of the composite material or compound for production of an article or single-use article that is compostable in particular.

The present technology relates to a latex composition for dip molding comprising a carboxylic acid-modified nitrile-based copolymer latex satisfying General Formulas 1 and 2, wherein the carboxylic acid-modified nitrile-based copolymer includes a conjugated diene-based monomer-derived unit, an ethylenic unsaturated nitrile-based monomer-derived unit, and an ethylenic unsaturated acid monomer-derived unit, and a molded article.

Intraocular implants and methods of making intraocular implants are provided. The intraocular implants can improve the vision of a patient, such as by increasing the depth of focus of an eye of a patient. In particular, the intraocular implants can include a mask having an annular portion with a relatively low visible light transmission surrounding a relatively high transmission central portion such as a clear lens or aperture. This construct is adapted to provide an annular mask with a small aperture for light to pass through to the retina to increase depth of focus. The intraocular implant may have an optical power for refractive correction. The intraocular implant may be implanted in any location along the optical pathway in the eye, e.g., as an implant in the anterior or posterior chamber.

The invention comprises a peelable membrane for resealably closing a metal end comprising an outer layer, a tacky layer, and a heat seal layer. The heat seal layer is permanently sealed to the metal end to cover at least one opening in the metal end. The tacky layer causes the peelable membrane to be resealable onto the metal end.

A foaming body for supporting microbes according to the present invention is superb in terms of microbial adherence to and affinity for pore areas therein, exhibits greatly improved supporting environments for microbes, and has a large surface area, thereby securing sufficient water treatment efficiency after loading microbes thereto.

Provided is a tube comprising a tetrafluoroethylene/fluoroalkyl vinyl ether copolymer, wherein the tube inner surface has a surface roughness Ra of 5 nm or less measured by atomic force microscopy (AFM) with an evaluation length set to 3 μm, and the tube has an amount of metals eluted from the tube inner surface of 0.30 ng/cm.sup.2 or less.

A continuous tube having alternating compositions along a length direction of the tube can include at least a first segment extruded from a first composition along a length direction of the tube and at least a second segment extruded from a second composition along the length direction of the tube in which the first and second segments are integrally joined. Additional segments can be added to the continuous tubing. Such tubing can be used as medical device such as with infusion sets.

A process for producing a copolymer foam containing polyamide blocks and polyether blocks, including the following steps: mixing the copolymer in the melt state with a blowing agent; foaming of the mixture of copolymer and blowing agent, wherein the blowing agent includes a mixture of dinitrogen and carbon dioxide. Also, a copolymer foam containing polyamide blocks and polyether blocks which can be obtained by such a production process.

This invention relates to copolymers which consist essentially of [-ether-phenyl-ether-phenyl-carbonyl-phenyl-]and [ether-phenyl-phenyl-ether-phenyl-carbonyl-phenyl-] repeat units, as well as end units, which have reduced melting temperature (Tm) compared to prior art copolymers including such repeat units. The copolymers of the invention exhibit crystallinity and have similar glass transition temperatures to the prior art polymers.

A machine produces foam-in-bag from foam precursors mixed within the bag. The machine comprises a base and a shell. The base and shell are moveable relative each other between a base/shell disengaged position and a base/shell engaged position. In the base/shell engaged position, the base and shell divide the bag so that a mixing chamber is isolated from the remainder portion of the bag. First and second nozzles inject foam precursors into the mixing chamber. A mixer engages the mixing chamber to provide mixing energy to facilitate the foam reaction.