A system for additive metal manufacturing, including a deposition mechanism, a translation mechanism mounting the deposition mechanism to the working volume, and a stage. A method for additive metal manufacturing including: selectively depositing a material carrier within the working volume; removing an additive from the material carrier; and treating the resultant material.

A system is disclosed for additively manufacturing a composite structure. The system may include a support, and a print head connected to and moveable by the support. The print head may have a first tool center point associated with discharge of a first material, and a second tool center point associated with discharge of a second material that is a type different than the first material.

A manufacturing method of an abradable coating consisting of depositing, on a substrate surface a filament of a thermosetting material while providing both a relative displacement between the substrate and the filament along a predetermined deposition path and solidification of the filament in order to create a three-dimensional scaffold of filaments, consisting of superimposed layers of which the filaments of a given layer are not contiguous and can be oriented differently from those of an adjacent layer, so as to confer upon it acoustic wave absorption properties, the thermosetting material being a thixotropic mixture free of solvent and consisting of a polymer base and a cross-linking agent in a weight ratio of a polymer base to a cross-linking agent comprised between 1:1 and 2:1, and of a flowing component, typically a petroleum jelly present between 5 and 15% by weight of the total weight of the thixotropic mixture.

A production device for a production of thermoset semifinished products comprises at least one material application unit (12) for applying a material (14) to a carrier element (16), wherein the production device further comprises at least one recording unit (18), which has at least one sensor element (20), for recording a thickness (22) of the material (14) applied to the carrier element (16).

Provided is a method for producing a sheet molding compound including an aging step for thickening a sheet-like resin compound. The method includes applying a load of 0.2 to 50 g/cm.sup.2 to at least part of the sheet-like resin compound for 1 hour or more under a condition of an internal temperature of 20 to 120° C. in the aging step. A sheet molding compound obtained from this method for producing a sheet molding compound and its molded article have excellent carbon fiber impregnability and the like and can thus suitably be used for the exteriors, structures, and the like of automotive components, railway vehicle components, aerospace vehicle components, ship components, housing equipment components, sports components, light vehicle components, construction and civil engineering components, OA equipment, and the like.

Interconnects may comprise a sandwich-structured composite comprising a core layer located between two thermosetting polymer layers. The core layer may comprise 80 wt % to 95 wt % conductive metal and a polymer. The conductive metal may comprise silver (Ag). The polymer may comprise polydimethylsiloxane (PDMS). Interconnects may be particularly suited for use in electronic devices, such as a flexible batteries and wearable electronic devices.

A method of manufacturing a separate and continuous layer being essentially uncured. The method includes applying a powder mix including fibres and a thermosetting binder on a carrier, forming a powder mix layer, wherein the powder mix is connected together such that the powder mix layer is obtained and wherein the powder mix layer is essentially uncured, and releasing the powder mix layer from the carrier. Also, a layer and a method for manufacturing a building panel.

A fabrication method of transparent material is a method of processing a thermosetting transparent material including a disposing step of disposing an uncured thermosetting transparent material, a laser beam irradiation step of irradiating the disposed uncured thermosetting transparent material with a laser beam so that cavitation bubbles are generated in the uncured thermosetting transparent material, and a curing step of performing a curing process on the uncured thermosetting transparent material in which the cavitation bubbles are generated.

Disclosed is a process for producing a thermoformable and/or embossable particle/polymer composite using a ground particulate biological substrate S of nutrient tissue and a polymer P, characterized in that (i) the substrate S and the polymer P are homogeneously mixed, then (ii) the substrate S/polymer P mixture is converted into a particle layer, and thereafter (iii) the resulting particle layer is densified at a temperature higher than or equal to the glass transition temperature of the polymer P [Tg.sup.P] to form a thermoformable and/or embossable particle/polymer composite,
where (a) the substrate S comprises extracted ground coffee beans; and (b) the polymer P is thermoplastic and has a Tg.sup.P≥20° C. measured according to DIN EN ISO 11357-2 (2013-09).

Furthermore, a process for the manufacturing of a particle/polymer molding, a particle/polymer molding and its use as an element in buildings or in furniture are disclosed.

Provided are a fiber-reinforced composite molded article prepared by heat-curing, as a molding material of a fiber-reinforced resin material, a resin composition to which an internal mold release agent is added, the fiber-reinforced composite molded article being capable of effectively producing mold releasability even with a small amount of the mold release agent added, and being capable of achieving high productivity, and a method of forming the fiber-reinforced composite molded article. A fiber-reinforced composite molded article prepared by curing reinforcing fibers and a resin composition, the resin composition including an internal mold release agent, wherein the value obtained by normalizing a Poisson-corrected ion intensity derived from the internal mold release agent detected on the surface of the fiber-reinforced composite molded article, by the Poisson-corrected gross positive secondary ion intensity detected in the predetermined area is higher than 0.1, and a molding method therefor.