A press tool for a press assembly includes an additive manufactured body including a plurality of stacked layers of additive manufacturable material extending between an interior side and an exterior side. The interior side has a part forming surface including a surface profile for forming a part. The exterior side has a plurality of hollow cores defined by longitudinal walls and lateral walls meeting at joints. Press inserts are coupled to the longitudinal walls and the lateral walls at the exterior side. The press inserts are configured to be pressed inward by a pressing load during a pressing operation for forming the part. The press inserts distribute the pressing load along the longitudinal and lateral walls.

A forming tool including an additive manufactured polymer shell defining a first side and an opposite second side. The forming tool includes a support structure mechanically connected to the second side of the shell. The support structure may be formed by pouring a molten backfill material into the shell, and solidifying the backfill material. The backfill material includes a low melting temperature metal, fusible alloy, or other element. The solidified backfill material has a strength and rigidity greater than the polymer used to make the shell. The first surface of the shell includes a complex surface for bringing into contact with a material in a stamping process to form a stamped part.

A paper stack press machine comprises a base 1 with a press surface 2, a pressing plate 5, and a pressing plate drive mechanism 6 moving the pressing plate between a standby position at which the pressing plate separates from a paper stack S on the press surface and a press position at which the pressing plate presses the paper stack against the press surface. A surface of the pressing plate facing the press surface is elastically deformable. A pushing bar 11a is arranged at the second side of the pressing plate so as to be movable in an axial direction thereof between a retracted position at which the pushing bar separates from the paper stack and an advanced position at which the pushing bar pushes the paper stack against the press surface.

A method for producing a pressing tool for producing a workpiece, the pressing tool may include a pressing surface having a structure of protrusions and recesses, the method may include applying a mask for covering regions, applying a metal layer to the regions not covered by the mask while adding mineral particles, and/or repeating the foregoing steps until the pressing surface with the structure of the protrusions and recesses is formed by repeated, layered application of masks and metal layers while adding mineral particles. The pressing surface may have regions of different degrees of gloss and/or metal of at least two metal layers may be different in order to obtain the regions of different degrees of gloss.

A movable contact element for a pressing device for pressing meat products, in particular frozen and/or partly frozen meat products, preferably fresh meat products and/or bacon, comprises a base part; an attachment part; a transverse sliding part; and a height part that are connected to one another at respective connection points and that form a contact surface for a product at one side of the contact element during the pressing. The contact surface has an effective length along a first direction of extent and an effective width along a second direction of extent perpendicular to the first direction of extent, with the effective length and the effective width of the contact surface being variable.

Shock absorbers (33) are attached to a press apparatus (10). The press apparatus (10) has a lower die unit (11) and an upper die unit (21) that is movable in vertical directions; the lower die unit and the upper die unit are capable of cooperating with each other to perform press-forming on a blank (W). The upper die unit (21) has an upper forming die (22) that serves as a forming die to perform press-forming on the blank (W) and upper blank holders (25) that partially serve as blank holders. The shock absorbers (33) are respectively disposed between the upper forming die (22) and the upper blank holders (25), and when the upper die unit (21) is moved upward away from the lower die unit (11) to open the upper and lower forming dies after press-forming is performed on the blank (W), impact applied to the upper blank holders (25) by the upper forming die (22) are respectively absorbed by the shock absorbers (33).

A mallet hammer tipping-detipping apparatus may include a press weldment. The press weldment may include a press base and a press neck extending from a surface of the press base. The mallet hammer tipping-detipping apparatus may include a press adapter coupled to the press neck. The press adapter may include a central recess such that a mallet hammer head may interface with the press adapter. The mallet hammer tipping-detipping apparatus may include a tip holder coupled to the base of the press weldment such that the press adapter is positioned above the tip holder. The tip holder may include a seating section in which the mallet hammer head may be positioned.

A method for coating stainless steel press plates includes preparing the stainless steel press plate for coating and coating the stainless steel press plate with a diboride doped with 1%-5% by weight aluminum to produce a diboride-aluminum coating. The step of coating includes applying the diboride-aluminum coating to a stainless steel press plate using a magnetron sputter coating system.

A textured press plate for use in the manufacture of decorative laminate is provided. The textured press plate is manufactured by the method include the steps of applying a UV curable acrylate mixture to a surface of a press plate substrate, irradiating the UV curable acrylate mixture with LED precure by excimer UV to create a UV-irradiated layer having a surface exhibiting micro-folding, and fully curing the UV-irradiated layer to form a textured coating layer.

Methods and apparatus to remove gas and vapor from a panel for a decorative layer are disclosed. An example apparatus includes a first press plate of a hot press to engage a first surface of a panel. The hot press is to apply heat to the panel via the first press plate to cure resin of the panel. A first portion of the first press plate is composed of a permeable material to remove at least one of gas or vapor from the panel to deter the at least one of gas or vapor from exerting a pressure on a decorative layer to be coupled to the panel to deter separation of a portion of the decorative layer from the panel.