The present invention relates to a bronze-polytetrafluoroethylene compound based on an oxidation-resistant bronze powder, and to a method for producing the bronze-polytetrafluoroethylene compound. In another aspect, the present invention relates to an oxidation-resistant bronze powder for use in polytetrafluoroethylene compounds.

The present invention relates to a bronze-polytetrafluoroethylene compound based on an oxidation-resistant bronze powder, and to a method for producing the bronze-polytetrafluoroethylene compound. In another aspect, the present invention relates to an oxidation-resistant bronze powder for use in polytetrafluoroethylene compounds.

A cylinder for a molding machine comprising a HIP-sintered lining layer on an inner surface of a cylindrical steel body, the lining layer comprising 38-70% by volume of tungsten carbide particles having a median diameter d.sub.50 of 1-7 m and a matrix composed of an Ni-based alloy, and the maximum length of the matrix in an arbitrary cross section being 12 m or less.

A cylinder for a molding machine comprising a HIP-sintered lining layer on an inner surface of a cylindrical steel body, the lining layer comprising 38-70% by volume of tungsten carbide particles having a median diameter d.sub.50 of 1-7 m and a matrix composed of an Ni-based alloy, and the maximum length of the matrix in an arbitrary cross section being 12 m or less.

A method of additively manufacturing a monolithic metal article having a three-dimensional shape is disclosed. The method involves forming a preform of the article that includes atomized metal particles bound together by a binder material. The atomized metal particles, more specifically, comprises (1) water atomized metal particles and (2) gas atomized metal particles, plasma atomized metal particles, or a mixture of gas atomized metal particles and plasma atomized metal particles. The water atomized metal particles may be contained in one portion of the preform and the gas and/or plasma atomized metal particles may be contained in another portion of the preform. The method also includes removing at least a portion of the binder material from the preform and sintering the preform to transform the preform into the monolithic metal article.

A method of additively manufacturing a monolithic metal article having a three-dimensional shape is disclosed. The method involves forming a preform of the article that includes atomized metal particles bound together by a binder material. The atomized metal particles, more specifically, comprises (1) water atomized metal particles and (2) gas atomized metal particles, plasma atomized metal particles, or a mixture of gas atomized metal particles and plasma atomized metal particles. The water atomized metal particles may be contained in one portion of the preform and the gas and/or plasma atomized metal particles may be contained in another portion of the preform. The method also includes removing at least a portion of the binder material from the preform and sintering the preform to transform the preform into the monolithic metal article.

An implant may include a body having a leading edge portion, a trailing edge portion, and an intermediate portion. The leading edge portion may include a substantially smooth surface forming a substantial majority of a leading edge surface and the trailing edge portion may include a monolithic structure including at least one receptacle configured to receive an insertion tool. The intermediate portion may include a plurality of elongate curved structural members continuously formed with at least one of the leading edge portion and the trailing edge portion. In addition, the elongate curved structural members may be configured such that the intermediate portion remains substantially rigid under compressive forces during insertion of the implant between bone surfaces of a patient. Also, the elongate curved structural members may include an elongate curved structural member extending longitudinally from the leading edge portion to the trailing edge portion and having a substantially sinusoidal configuration.

A method for welding together at least two parts of green material, referred to as green parts, by means of co-sintering, comprising the following steps:assembling the at least two green parts at a junction zone of said parts so as to form a green one-piece assembly,de-binding the green one-piece assembly, andsintering the one-piece assembly so as to obtain a dense one-piece assembly forming a final part, characterised in that the two green parts (10, 12) each have a composition of different powder, so as to produce a final part (1) having at least two parts with different grain sizes.

A method for welding together at least two parts of green material, referred to as green parts, by means of co-sintering, comprising the following steps:assembling the at least two green parts at a junction zone of said parts so as to form a green one-piece assembly,de-binding the green one-piece assembly, andsintering the one-piece assembly so as to obtain a dense one-piece assembly forming a final part, characterised in that the two green parts (10, 12) each have a composition of different powder, so as to produce a final part (1) having at least two parts with different grain sizes.

A machine tool (100) is arranged to deliver at least one of an energy source and a media, through a processing head (300) onto a work-piece for material addition, inspection or data collection, wherein the machine-tool has a clamping mechanism (202) arranged to temporarily receive the processing-head and wherein the machine tool comprises a stop block (390) having a manifold arranged to deliver at least one of the energy and media and wherein the processing head comprises an anti-rotation arm (391) and connector (600) arranged to be connectable to the stop block and wherein the processing head further comprises a manifold arranged to engage with the stop block manifold when the processing head is connected to receive the energy or media. The machine tool may be a multi-axis machine tool and the stop block can be fixed to the machine tool or may be integrated therein.