An article comprising additively manufactured metal portions is described. The article comprises a first additively manufactured metal portion, and a second additively manufactured metal portion coupled to the first additively manufactured metal portion at a welded joint. The article further comprises a resistive heating material disposed within an interior of the welded joint, the resistive heating material comprising a different material than the first additively manufactured metal portion and the second additively manufactured metal portion.

An article comprising additively manufactured metal portions is described. The article comprises a first additively manufactured metal portion, and a second additively manufactured metal portion coupled to the first additively manufactured metal portion at a welded joint. The article further comprises a resistive heating material disposed within an interior of the welded joint, the resistive heating material comprising a different material than the first additively manufactured metal portion and the second additively manufactured metal portion.

Methods of making composite articles wherein at least a portion of a hardsurface wear protection applied to a composite article includes matrix composite and hard elements with channels between the hard elements. A layered preform coating mat may be applied over a substrate of the composite article and then fused thereto to form channels between hard elements in the coating mat. The channels may extend over the entire outer surface of the composite article or only over a portion thereof. A hybrid layered preform coating mat may include a depressed section adapted for receiving a perforated braze preform inlay. When the coating mat is fused to the substrate, channels may be formed between the hard elements in the depressed section, but not in a non-depressed section.

Methods of making composite articles wherein at least a portion of a hardsurface wear protection applied to a composite article includes matrix composite and hard elements with channels between the hard elements. A layered preform coating mat may be applied over a substrate of the composite article and then fused thereto to form channels between hard elements in the coating mat. The channels may extend over the entire outer surface of the composite article or only over a portion thereof. A hybrid layered preform coating mat may include a depressed section adapted for receiving a perforated braze preform inlay. When the coating mat is fused to the substrate, channels may be formed between the hard elements in the depressed section, but not in a non-depressed section.

An implant for in-vivo implantation which comprises an assembly of two or more constructive elements (3,4) which are movable relative to each other. Each constructive element (3,4) is partly or completely porous and comprises a porous part (5,6) with a matrix (7,8) of open cells (51,61). A first matrix (7) of the first element (3) comprises a first overlapping part (50) with a form-closed connection to a second overlapping part (60) of a second matrix (8) of the second of the constructive elements (4) through which the first overlapping part extends. The overlapping parts (50,60) are movable relative to each other to change a combined shape of the overlapping parts.

An implant for in-vivo implantation which comprises an assembly of two or more constructive elements (3,4) which are movable relative to each other. Each constructive element (3,4) is partly or completely porous and comprises a porous part (5,6) with a matrix (7,8) of open cells (51,61). A first matrix (7) of the first element (3) comprises a first overlapping part (50) with a form-closed connection to a second overlapping part (60) of a second matrix (8) of the second of the constructive elements (4) through which the first overlapping part extends. The overlapping parts (50,60) are movable relative to each other to change a combined shape of the overlapping parts.

Power transmission systems are provided that include polycrystalline diamond power transmission surfaces that are engaged with diamond solvent-catalyst power transmission surfaces. The power transmission systems may be or include gears, universal joints, or other power transmission systems or components.

Power transmission systems are provided that include polycrystalline diamond power transmission surfaces that are engaged with diamond solvent-catalyst power transmission surfaces. The power transmission systems may be or include gears, universal joints, or other power transmission systems or components.

A method of joining parts includes additively manufacturing a first part in a green state. The first part defines at least one receiving feature and the method includes placing a second part into the at least one receiving feature and forming an assembly, and sintering the assembly such that volumetric shrinkage of the first part secures the second part to the first part. The first part can be binder jet additively manufactured, for example metal binder jet additively manufactured. Non-limiting examples of the at least one receiving feature include a slot, a T-shaped slot, an L-shaped slot, a key-hole slot, an aperture, a clip, a flange, and combinations thereof, and non-limiting examples of the second part include a ball stud, a T-head stud, an L-head stud, a bolt, a nut, a flange, and a bracket.

A method of joining parts includes additively manufacturing a first part in a green state. The first part defines at least one receiving feature and the method includes placing a second part into the at least one receiving feature and forming an assembly, and sintering the assembly such that volumetric shrinkage of the first part secures the second part to the first part. The first part can be binder jet additively manufactured, for example metal binder jet additively manufactured. Non-limiting examples of the at least one receiving feature include a slot, a T-shaped slot, an L-shaped slot, a key-hole slot, an aperture, a clip, a flange, and combinations thereof, and non-limiting examples of the second part include a ball stud, a T-head stud, an L-head stud, a bolt, a nut, a flange, and a bracket.