Resin pellets (7) supplied to a resin block forming space (150) are heated and melted by a heater unit (300) and the melted resin pellets (7) are cooled and solidified to form a resin layer. Since a lifting mechanism (230) of a lifting unit (200) lowers a bottom surface plate (215) whenever forming each of the resin layers, the resin layers formed by the resin block forming space (150) are sequentially laminated to form a large resin block.

A panel for forming a floor covering has a substrate including at least a layer of thermoplastic material, where the panel, above the layer, has at least also a printed décor and a translucent or transparent wear layer. The layer also includes at least individual fibers having a length greater than 1 millimeter, where the individual fibers are loose and freely distributed with the layer of thermoplastic material.

A multi-cavity forming mould system for forming a plurality of discrete three-dimensional cellulose products from an air-formed cellulose blank structure. The forming mould system includes a first mould part and a second mould part arranged for cooperating with each other during forming of the cellulose products. The first mould part includes a plurality of first forming elements and the second mould part comprises a plurality of corresponding second forming elements movably arranged in relation to a base structure of the second mould part. The forming mould system is configured for establishing a plurality of forming cavities for the cellulose blank structure between each first forming element and corresponding second forming element during formation of the cellulose products. Each second forming element is arranged for interacting with a pressure member arranged in the base structure, where the pressure member is configured for establishing a forming pressure in each forming cavity onto the cellulose blank structure during formation of the cellulose products.

A component for a sole structure of an article of footwear includes a base layer including a substrate material and defining a longitudinal axis, a first fiber layer disposed on the base layer, and a second fiber layer disposed on the first fiber layer. The first fiber layer defines a first fiber array that is disposed at a first angle relative to the longitudinal axis. The second fiber layer defines a second fiber array that is disposed at a second angle relative to the longitudinal axis. The base layer, the first fiber layer, and the second fiber layer are printed to form the component, and the component is at least partially received within the sole structure and spaced apart from an insole of the footwear.

An improved compression-molding process utilizes a unique assemblage of feed constituents, arranged, and aligned in a particular manner. The assemblage includes fiber-bundle preforms having a filamentous form with a typically circular or oval cross section, and having many thousands of relatively long, co-aligned, resin-impregnated fibers. The fiber-bundle preforms are formed to have an application-appropriate length and optionally shape. The assemblage further includes very-short-fiber constituents have a filamentous form and consisting of very short, typically non-aligned, resin-impregnated fibers. Although consisting of very short fibers, the very-short-fiber constituent may nevertheless be similar in length and cross section to the FB preforms to facilitate handling, registration with a mold cavity, and the like. In some embodiments, some of the very-short-fiber constituents are positioned in the assemblage proximal to expected locations of respective parting lines on the fiber-composite part to be molded. In some embodiments, the long axis of those very-short-fiber constituents is substantially parallel to the respective parting lines.

An exterior inspection device configured to inspect whether or not a molded product in a predetermined shape has defectiveness based on an image of the molded product, the inspection device including: a first foreign matter determiner configured to determine whether or not, in an obtained image of the molded product, a first inspection region located inside an outline of an assumed normal molded product P includes foreign matter; and a second foreign matter determiner configured to determine whether or not, in the obtained image of the molded product, a second inspection region located outside the outline of the assumed normal molded product includes foreign matter.

The present disclosure relates to a method of fabricating a liquid leak sensor and, more particularly, to a method of fabricating a liquid leak sensor, which is cheap and can be easily fabricated by consecutively disposing a nonconductive layer and a conductive layer and compressing the layers. The method may include shaping a nonconductive mold article having a flat top surface and bottom surface using nonconductive powder, shaping a conductive mold article having a flat top surface and bottom surface using a conductive raw material, alternately stacking the nonconductive mold article and the conductive mold article on a die up and down, shaping a single compressed article by applying pressure to the stacked nonconductive mold article and conductive mold article up and down using presses, sintering the molded compressed article, and performing skiving processing on a side of the sintered compressed article to a given thickness.

A method for manufacturing a fired body of a fluororesin includes a mixing step of mixing a fluororesin pulverized after firing and an unfired fluororesin powder aggregated after emulsion polymerization at a rate based on predetermined strength to produce a component to be fired, and a firing step of firing the component to be fired produced.

A method for making a smokeless tobacco article can include combining thermoplastic polymer particles with tobacco particles to form a mixture of particles, compressing the mixture of particles within a pressing apparatus to form the mixture into a predetermined shape, separating the mixture from the pressing apparatus such that it retains the predetermined shape, and heating the mixture outside of the pressing apparatus to at least partially melt at least some of the thermoplastic polymer particles and form a matrix of polymer and tobacco particles.

Disclosed is a friction-reducing and anti-wear composite material for a wading kinematic pair and a method of preparing the same. The friction-reducing and anti-wear composite material is prepared from carbon fiber (CF) among inorganic fillers, polyimide (PI) and polyether ether ketone (PEEK). These three materials are wet-mixed, dried and placed in a mold followed by curing by a heat press. The cured product is cooled and demolded to obtain the CF/PI/PEEK friction-reducing and anti-wear composite material for a wading kinematic pair. Tribological properties of the PEEK material are enhanced due to synergistic effect arising from hybrid organic-inorganic filling. The friction-reducing and anti-wear composite material provided in the invention has significantly reduced friction coefficient and wear volume loss under the seawater environment.