Abstract: A manufactured article is comprised of an additively manufactured component having sequentially joined layers of metallic powder. A braze material is disposed on at least a portion of an outer surface of the component. The braze material is located in expected crack locations in the outer surface. At least one crack formed in the outer surface, during a heat treatment, is filled with the braze material. The additively manufactured component comprises a metallic material from a precipitation hardened nickel-based superalloy, which forms a ?? phase.

Abstract: Build plates for additive manufacturing systems are disclosed. The build plates of the additive manufacturing systems may include a body including a build surface, and a bottom surface positioned opposite the build surface. The build plates may also include a first conduit formed through the body and extending between the build surface and the bottom surface. The first conduit may be configured to be in fluid communication with a first aperture formed through a surface of a first component that may be built on the build surface of the body of the build plates.

Abstract: A manufactured article is comprised of an additively manufactured component having sequentially joined layers of metallic powder. A braze material is disposed on at least a portion of an outer surface of the component. The braze material is located in expected crack locations in the outer surface. At least one crack formed in the outer surface, during a heat treatment, is filled with the braze material. The additively manufactured component comprises a metallic material from a precipitation hardened nickel-based superalloy, which forms a ?? phase.

Abstract: A method for using a build plate including a reusable supporting platform for additive manufacturing of a component is disclosed. The method may include additive manufacturing the reusable supporting platform on a top surface of a base of the build plate, and additive manufacturing a first component on the second surface of the reusable supporting platform. The method may also include separating the first component from the build plate at the second surface of the reusable supporting platform, thereby exposing a new surface of the body of the reusable supporting platform. Additionally, the method may include additive manufacturing at least a second component on the new surface of the reusable supporting platform. The reusable supporting platform may include a body including a first surface coupled to the top surface of the base of the build plate, and a second surface configured to support a component to be formed by additive manufacturing and for separation of the component from the build plate.

Abstract: An additively manufactured (AM) structure includes a removal plane extending therein defining an object thereabove. The AM structure also includes at least one datum structure coupled relative to the AM structure. Each datum structure includes a vertical reference plane for guiding a cutting element to remove the object from a remaining portion of the AM structure through the removal plane. The vertical reference plane is horizontally coplanar with the removal plane of the AM structure. The datum structures allow for accurate object cuts regardless of whether an AM build platform is horizontal or non-planar.

Abstract: An additively manufactured (AM) structure includes a removal plane extending therein defining an object thereabove. The AM structure also includes at least one datum structure coupled relative to the AM structure. Each datum structure includes a vertical reference plane for guiding a cutting element to remove the object from a remaining portion of the AM structure through the removal plane. The vertical reference plane is horizontally coplanar with the removal plane of the AM structure. The datum structures allow for accurate object cuts regardless of whether an AM build platform is horizontal or non-planar.

Abstract: Build plates for additive manufacturing systems are disclosed. The build plates of the additive manufacturing systems may include a body including a build surface, and a bottom surface positioned opposite the build surface. The build plates may also include a first conduit formed through the body and extending between the build surface and the bottom surface. The first conduit may be configured to be in fluid communication with a first aperture formed through a surface of a first component that may be built on the build surface of the body of the build plates.

Abstract: A method for using a build plate including a reusable supporting platform for additive manufacturing of a component is disclosed. The method may include additive manufacturing the reusable supporting platform on a top surface of a base of the build plate, and additive manufacturing a first component on the second surface of the reusable supporting platform. The method may also include separating the first component from the build plate at the second surface of the reusable supporting platform, thereby exposing a new surface of the body of the reusable supporting platform. Additionally, the method may include additive manufacturing at least a second component on the new surface of the reusable supporting platform. The reusable supporting platform may include a body including a first surface coupled to the top surface of the base of the build plate, and a second surface configured to support a component to be formed by additive manufacturing and for separation of the component from the build plate.