A method for producing a component from hardenable material, wherein, in a first method step, at least one layer of the material is printed in a 3D printing process, in a second method step, multiple similar reinforcing elements are introduced into the layer(s) and the two method steps are cyclically repeated until the component is completed, characterized in that, with the exception of the two bottommost and the topmost layers, each reinforcing element extends over at least three layers, and the reinforcing elements are arranged in strands which extend through all the layers and have, in each layer, at least three reinforcing elements, the lateral distance (A) of these reinforcing elements from each other within a strand being a maximum of five times the largest lateral extent (D) of a reinforcing element.

A method of forming an integral fastener for a ceramic matrix composite component comprises the steps of forming a fiber preform with an opening, forming a fiber fastener, inserting the fiber fastener into the opening, and infiltrating a matrix material into the fiber preform and fiber fastener to form a ceramic matrix composite component with an integral fastener. A gas turbine engine is also disclosed.

A method of forming an integral fastener for a ceramic matrix composite component comprises the steps of forming a fiber preform with an opening, forming a fiber fastener, inserting the fiber fastener into the opening, and infiltrating a matrix material into the fiber preform and fiber fastener to form a ceramic matrix composite component with an integral fastener. A gas turbine engine is also disclosed.

In embodiments, a flexible mat forming system includes a rotating drum having a plurality of mold cavities; a hopper that receives a hardenable paste and deposits the hardenable paste into the mold cavities as the drum rotates relative to the hopper; and a sheet of mesh material that is fed between the hopper and the mold cavities facing the hopper. The hopper includes a plurality of side walls and a bottom panel having an opening, wherein the plurality of walls and the bottom panel define an interior chamber; and an auger rotatably mounted in the interior chamber and having a plurality of radially extending protrusions along a length thereof, the radially extending protrusions including angled surfaces to displace the material received in the interior chamber along a length of the interior chamber to fall through the opening into the mold cavities.

A heater includes a plate-shaped part, one or more resistance heating element, a columnar part, and a plurality of relay conductors. The plate-shaped part has an insulation property and includes an upper surface on which a wafer is to be superimposed and a lower surface on an opposite side to the upper surface. The one or more resistance heating element is buried in the plate-shaped part. The columnar part has an insulation property and projects downward from the lower surface of the plate-shaped part. The plurality of relay conductors respectively include extension portions vertically extending inside the columnar part and are electrically connected to the one or more resistance heating elements.

A heater includes a plate-shaped part, one or more resistance heating element, a columnar part, and a plurality of relay conductors. The plate-shaped part has an insulation property and includes an upper surface on which a wafer is to be superimposed and a lower surface on an opposite side to the upper surface. The one or more resistance heating element is buried in the plate-shaped part. The columnar part has an insulation property and projects downward from the lower surface of the plate-shaped part. The plurality of relay conductors respectively include extension portions vertically extending inside the columnar part and are electrically connected to the one or more resistance heating elements.

The present disclosure relates to a method of fabricating a ceramic composite components. The method may include providing at least a first layer of reinforcing fiber material which may be a pre-impregnated fiber. An additively manufactured component may be provided on or near the first layer. A second layer of reinforcing fiber, which may be a pre-impregnated fiber may be formed on top the additively manufactured component. A precursor is densified to consolidates at least the first and second layer into a densified composite, wherein the additively manufactured material defines at least one cooling passage in the densified composite component.

Provided is an apparatus for preparing a building structure with 3D printing, comprising: a 3D printing device (1), having a storage chamber (11) and a printing head (12) connected to the storage chamber (11) and being movable relative to a base frame; and a reinforcing device, movably disposed relative to the base frame, and having a driving mechanism (3) for driving short rebars or short ribs to perform an insertion movement in a direction intersected with a stacking direction of a cement-based slurry layer; the driving mechanism inserts the short rebars or the short ribs into an interlayer interface spanning at least two adjacent cement-based slurry layers printed by the 3D printing device (1). Also provided a method for preparing a building structure with 3D printing. There is no printing gap between the cement-based slurry layer printed by the apparatus and the inserted rebars, ensuring a tight connection between the cement slurry and the rebars, so that the mechanical properties and toughness of the interlayer interface between the cement-based materials of the 3D printing are truly improved.

Couplings for coupling pre-cast construction segments together and pre-cast construction segments having such couplings. A construction coupling for connecting prefabricated segments includes a pair of anchors. Each anchor includes a central portion and a pair of legs. The central portion defines an elongated bore. The pair of legs extending from opposite sides of the central portion. Each leg extending in a direction generally transverse to the elongated bore and having a proximal end attached to the central portion and a free distal portion disposed away from the central portion. The construction coupling also includes a pin adapted to be received in the elongated bores of the pair of the anchors to connect the pair of anchors together.

A method of forming a coating includes providing a mold that has a flexible wall that defines a mold cavity, inserting a component that is to be coated into the mold cavity, the component having a component surface roughness and there being a coating gap defined between the component and the flexible wall of the mold cavity, introducing a molding slurry into the mold cavity, the molding slurry filling the coating gap and contacting the component so as to overcoat the component surface roughness, solidifying the molding slurry to form a green coating on the component, and consolidating the green coating to form a final coating on the component, the final coating having a coating surface roughness that is less than the component surface roughness.