The present disclosure relates to a preparation method of a super absorbent polymer composition. More specifically, it relates to a preparation method of a super absorbent polymer composition capable of pulverizing the hydrogel polymer to a normal particle size without agglomeration between particles by adding an additive having a specific structure, reducing manufacturing cost by simultaneously performing a drying process and a surface cross-linking process, and significantly reducing the amount of fine powder generated during the process.

A polyphenylene sulfide resin composition includes a polyphenylene sulfide resin (A); an aromatic vinyl compound block copolymer (B) containing at least one functional group selected from the group consisting of a carboxyl group, an acid anhydride group, a hydroxyl group, an amino group, an epoxy group and an isocyanate group; and an alkoxysilane compound (C) containing at least one functional group selected from the group consisting of an epoxy group, an amino group and an isocyanate group; wherein a phase structure of the polyphenylene sulfide resin composition is a sea-island structure in which the polyphenylene sulfide resin (A) forms a sea phase, and the aromatic vinyl compound block copolymer (B) forms an island phase dispersed in a number average dispersed particle size of 1,000 nm or less.

The present invention concerns a method and a plant for the production of polymeric adhesives comprising the steps of dosing of the base material into a mixer (31) by means of a first metering device (11), dosing of the catalyst material into the mixer (31) by means of a second metering device (21), mixing the base material and the catalyst material in a mixture by means of the mixer (31), packing the mixture in storage containers. Moreover, the method of manufacturing comprises a step of managing a first temperature, by means of first temperature control means of the base material and catalyst material, wherein the base material and the catalyst material are kept within a predetermined range of temperature such as to prevent the formation in the mixer (31) of the polymeric adhesive in an oligomeric state. Furthermore, the method of manufacturing comprising a step of managing a second temperature, by means of second temperature control means of the mixture, wherein the mixture is kept within the predetermined range of temperature such as to prevent the formation in the storage containers of the polymeric adhesive in an oligomeric state. Finally, the method of manufacturing comprises a step of cooling the storage containers able to slow down the formation in the storage containers of the polymeric adhesive in an oligomeric state.

Systems and processes for forming seals. The seals have graphene embedded in the seal. The graphene-embedded seals exhibit improved wear resistance over seals without graphene.

A pad for preventing tire skidding and a manufacturing method thereof, and is to provide a pad for preventing tire skidding and a manufacturing method thereof configured by a friction member formed by mixing a raw material rubber containing butadiene rubber and a functional additive; an adhesive layer coated with an adhesive on one side of the friction member so that the friction member is able to be adhered to a vehicle tire; and a mesh net embedded in the friction member or a mesh net connected to a piezoelectric element. The pad is provided with an adhesive layer coated with an adhesive and can be easily attached and used onto a vehicle tire, and is made of a large amount of butadiene rubber to increase the friction force against the ground.

The embodiment relates to a balanced propeller and to an extrudable metal polymer composite and process for making and using the composite to make balancing weight strips for marine or boat propellers. Metal particulate of adequate particle size is mixed with a polymer that is extruded or injection molded to form a high-density weighted strip.

A method for producing a polytetrafluoroethylene composition including mixing a polytetrafluoroethylene resin and a filler using an airflow mixer to provide a polytetrafluoroethylene composition containing the polytetrafluoroethylene resin and the filler. The airflow mixer is a pulse-type airflow mixer or an airflow stirrer. Also disclosed is a polytetrafluoroethylene composition produced by the production method, a polytetrafluoroethylene composition having specific physical properties, as well as a molded article, electrically conductive tube, thermally conductive film, and substrate for CCL each obtained from the polytetrafluoroethylene composition.

Additives such as colourants may be incorporated into polymeric materials such as polyesters, such as in polyester fibre production, by use of a liquid formulation comprising colourant and a vehicle. The vehicle may comprise a functionalised pentaerythritol, trimethylolpropane or trimellitate. The liquid formulation is suitably contacted with the polymeric material in a melt processing apparatus.

Disclosed herein is method for preparing a masterbatch by dispersing chemically modified cellulose nanofibers having carboxy groups under acidic conditions and then mixing the dispersed cellulose nanofibers with rubber latex. More specifically, the present disclosure provides a method for producing a masterbatch, including: (A) a step of introducing a carboxy group to a cellulose-based raw material to prepare a modified cellulose; (B) a step of carrying out defibration treatment and dispersion treatment of the modified cellulose to prepare a cellulose nanofiber; (C) a step of acidifying the cellulose nanofiber to prepare an acid type cellulose nanofiber; and (D) a step of mixing the acid type cellulose nanofiber and a rubber component. The rubber composition having excellent strength such as tensile strength can be provided by using the obtained masterbatch.

The present invention relates to a splint bendable in a curved shape and a method of forming thereof. According to an embodiment of the present invention, there may be provided a splint bendable in a curved shape comprising a lower splint portion having a plurality of first ventilation holes formed at a certain interval; an extension splint portion in which a plurality of extension holes are formed at a certain interval; and an upper splint portion in which a plurality of second ventilation holes are formed at a certain interval, and wherein the lower splint portion, the extension splint portion, and the upper splint portion are bent into an arc shape by a first bending, and a second bending wherein the lower splint portion and the upper splint portion are bent at different angles by a plurality of extension holes is performed for the extension splint portion.