A polymer blend containing polycarbonate and polysulfone in accordance with an embodiment of the present invention is provided, including a polysulfone resin, a polycarbonate resin, and a solvent for dissolving the polysulfone resin and the polycarbonate resin. The blending ratio of the polycarbonate resin to the polysulfone resin in the polymer blend ranges from 1:3 to 3:1. By adjusting the blending ratios of the polycarbonate resin to the polysulfone resin, the group of the polycarbonate resin and the group of the polysulfone resin are stably compatible with each other, and the glass transition temperature of the polymer blend is also remarkably increased, such that the a high-temperature resistance and improved mechanical properties are achieved.

Solution comprising a sulfone polymer, a water-soluble polymer and a N-acyl-morpholine of formula I wherein R.sup.1 is a hydrogen atom or a C1- to C3 alkyl group.

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A process for the production of expanded material based on sulfone polymers includes an extrusion step in an extruder of virgin sulfone polymer with the injection of at least one expanding agent and in the presence of at least one nucleating agent, and a recycling step of part of the expanded material, which provides a recycled product used as raw material fed to the extruder in combination with the virgin sulfone polymer.

A masterbatch for use in a process of preparing a composite material may contain a blend of a first amorphous polymer with carbon nanotubes. At least 5% by weight of carbon nanotubes may be present in the masterbatch, based on a total weight of the masterbatch. The masterbatch may exhibit a high load melt flow index HLMI1 of less than 40 g/10 min determined at 200 C. under a load of 21.6 kg according to ISO1133. The first amorphous polymer may have a melt flow index MFI1 of at least 10 g/10 min determined at 200 C. under a load of 5 kg according to ISO1133H.

The present disclosure provides a sulfide-based polymer, a film comprising the same, and a method for preparing the same.

The invention generally relates to articles and methods of making thereof. More specifically, the invention generally relates to articles comprising a substrate embedded with particles, and having at least one etched surface exposing at least a portion of particles. Methods of making these articles are also disclosed. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present invention.

Provided is process for producing a surface-metalized polymer film, the process comprising: (a) preparing a graphene dispersion comprising multiple graphene sheets and an optional conducive filler dispersed in a first liquid medium, which is an adhesive monomer/oligomer or contains a liquid adhesive monomer/oligomer/polymer dissolved in a solvent; (b) feeding a continuous polymer film from a feeder roller into a deposition zone, wherein the graphene dispersion is dispensed to deposit the graphene sheets to a surface of the polymer film; (c) moving the graphene-coated polymer film into a metallization chamber which accommodates a plating solution therein for plating a layer of a desired metal onto the graphene-coated polymer film to obtain a surface-metalized polymer film; and (d) operating a winding roller to collect the surface-metalized polymer film.

A method for manufacturing a filter membrane for inhibiting microorganisms includes the following steps: obtaining a nano-zinc precursor and dissolving it into water, adding at least one reducing agent and interfacial agent to the water, thereby reducing zinc ions of the nano-zinc precursor to zinc particles so as to form liquid having nano-zinc particles; respectively placing the liquid having nano-zinc particles and a polymer material into plastic masterbatch process equipment, respectively volatilizing the fluid having nano-zinc particles and polymer material through the plastic masterbatch process equipment, performing air extraction and mixing by the plastic masterbatch process equipment, and adding at least one grafting agent to perform a mixed graft link, allowing the nano-zinc particles and polymer material to be linked together stably so as to form a plastic masterbatch having nano-zinc particles; and making the plastic masterbatch into a filer membrane through film making equipment.

Provided is a surface-metalized polymer film comprising: (a) a polymer film having a thickness from 10 nm to 5 mm and two primary surfaces; (b) a graphene layer having a thickness from 0.34 nm to 50 m and comprising multiple graphene sheets and an optional conducive filler coated on or bonded to at least one of the two primary surfaces with or without using an adhesive resin; and (c) a metal layer comprising a plated metal deposited on the graphene layer; wherein the graphene sheets contain single-layer or few-layer graphene sheets selected from a pristine graphene, graphene oxide, reduced graphene oxide, graphene fluoride, graphene chloride, graphene bromide, graphene iodide, hydrogenated graphene, nitrogenated graphene, doped graphene, chemically functionalized graphene, or a combination thereof. This film exhibits a high scratch resistance, strength, hardness, electrical conductivity, thermal conductivity, light reflectivity, gloss, etc.

Provided are: a porous polyether sulfone film having macrovoids and having excellent dimensional stability; and a production method therefor. Provided is a porous polyether sulfone film having a surface layer (a), a surface layer (b), and a macrovoid layer interposed between the surface layer (a) and the surface layer (b). The macrovoid layer has a partition wall joined to the surface layers (a) and (b) and a plurality of macrovoids surrounded by the partition wall and the surface layers (a) and (b). The surface layer (a) and the surface layer (b) have pores connected to the macrovoids.