Abstract: A method of making composite electric machine rotor assembly of a desired magnetic pattern. Magnetic segments and non-magnetic segments are separately formed to green strength, and then arranged adjacent to each other in a desired magnetic pattern. A small amount of powder material is added in-between the segments, and the whole assembly is then sintered to form a sinterbonded composite component of high structural integrity.

Abstract: A method of making composite electric machine components. Magnetic segments and non-magnetic segments are separately formed to green strength, and then arranged adjacent to each other in a desired magnetic pattern. A small amount of powder material is added in-between the segments, and the whole assembly is then sintered to form a sinterbonded composite component of high structural integrity.

Abstract: An edge-connected non-thermal plasma reactor includes an element having an edge-connected frame comprising a pair of dielectric edge connectors secured at opposite ends to a pair of outer dielectric plates. The dielectric edge connectors have a backplane and a plurality of tines protruding along one major surface of the backplane. The tines are spaced apart from one another at regular intervals so as to form pockets between adjacent tines. Alternating polarity electrode plates comprising a dielectric barrier plate having an electrode and terminal connection lead disposed on the dielectric barrier are arranged within the edge-connected frame so as to define the presence of a dielectric barrier next to a plasma cell, with the pockets engaging opposite ends of the electrode plates. Double and single dielectric edge-connected reactor elements are provided.

Abstract: A composite powder metal disk for a rotor assembly in a circumferential type interior permanent magnet machine. The disk includes an inner ring of magnetically conducting powder metal compacted and sintered to a high density. The disk further includes an outer ring of permanent magnets separated by magnetically non-conducting powder metal compacted and sintered to a high density. The permanent magnets additionally are radially embedded by magnetically conducting powder metal compacted and sintered to a high density with optional intermediate non-conducting powder metal bridges extending radially from the permanent magnets to the outer surface of the disk. A rotor assembly is also provided having a plurality of the composite powder metal disks mounted axially along a shaft with their magnetic configurations aligned. A method for making the composite powder metal disks is further provided including filling a die with the powder metals, compacting the powders, and sintering the compacted powders.

Abstract: A composite powder metal disk for a rotor assembly in a circumferential type interior permanent magnet machine. The disk includes an inner ring of magnetically conducting powder metal compacted and sintered to a high density. The disk further includes an outer ring of permanent magnets separated by magnetically non-conducting powder metal compacted and sintered to a high density. The permanent magnets additionally are radially embedded by magnetically conducting powder metal compacted and sintered to a high density with optional intermediate non-conducting powder metal bridges extending radially from the permanent magnets to the outer surface of the disk. A rotor assembly is also provided having a plurality of the composite powder metal disks mounted axially along a shaft with their magnetic configurations aligned. A method for making the composite powder metal disks is further provided including filling a die with the powder metals, compacting the powders, and sintering the compacted powders.

Abstract: A method of producing a mold cavity insert using powder metals includes the steps of providing a master die having a pattern with a shape that defines a mold cavity, applying powder metal in the master die, and compacting the powder metal within the master die with a press assembly to form a compacted part. The method further includes the steps of removing the compacted part from the master die, placing the compacted part in a furnace, and heating the compacted part in the furnace to an elevated temperature to cure the part and provide a mold cavity insert that may be employed in a mold.

Abstract: A composite powder metal disk for a rotor assembly in a circumferential type interior permanent magnet machine. The disk includes an inner ring of magnetically conducting powder metal compacted and sintered to a high density. The disk further includes an outer ring of permanent magnets separated by magnetically non-conducting powder metal compacted and sintered to a high density. The permanent magnets additionally are radially embedded by magnetically conducting powder metal compacted and sintered to a high density with optional intermediate non-conducting powder metal bridges extending radially from the permanent magnets to the outer surface of the disk. A rotor assembly is also provided having a plurality of the composite powder metal disks mounted axially along a shaft with their magnetic configurations aligned. A method for making the composite powder metal disks is further provided including filling a die with the powder metals, compacting the powders, and sintering the compacted powders.

Abstract: A method of making a composite powder metal disk for a rotor assembly in a synchronous reluctance machine. The method includes filling discrete regions of a disk-shaped die with ferromagnetic and non-ferromagnetic powder metals, compacting to powders, and sintering the compacted powders. By this method, a disk is formed that includes alternating regions of magnetically conducting powder metal and magnetically non-conducting powder metal compacted and sintered to a high density. The method may also include forming a rotor assembly by stacking a plurality of the composite powder metal disks axially along a shaft with their magnetic configurations aligned.

Abstract: A method of making a composite powder metal disk for a rotor assembly in a surface permanent magnet machine. The method includes filling inner and outer annular regions of a disk-shaped die with soft and hard ferromagnetic powder metals, compacting the powders, and sintering the compacted powders. By this method, a disk is formed that includes permanent magnets on the surface of an inner ring of magnetically conducting powder metal compacted and sintered to a high density. In one embodiment, non-ferromagnetic powder metal is filled into regions of the die such that the permanent magnets are separated by magnetically non-conducting powder metal compacted and sintered to a high density. The method may also include forming a rotor assembly by stacking a plurality of the composite powder metal disks axially along a shaft with their magnetic configurations aligned.

Abstract: A method of making composite electric machine components. Magnetic segments and non-magnetic segments are separately formed to green strength, and then arranged adjacent to each other in a desired magnetic pattern. A small amount of powder material is added in-between the segments, and the whole assembly is then sintered to form a sinterbonded composite component of high structural integrity.

Abstract: A composite powder metal rotor sleeve for slipping over a conventional rotor core to form a rotor assembly in an electric machine. The sleeve includes alternating magnetically conducting segments of sintered ferromagnetic powder metal and magnetically non-conducting segments of sintered non-ferromagnetic powder metal. A rotor assembly is also provided in which a rotor core of stamped laminations is attached to a shaft, and the composite sleeve of the present invention circumferentially surrounds the rotor core. There is further provided alternative methods of making an annular composite powder metal rotor sleeve of the present invention, including a compaction-sintering method, and injection molding method, and a sinterbonding method.

Abstract: A composite powder metal disk for a rotor assembly in an induction machine. The disk includes a magnetically conducting powder metal segment and a plurality of axially extending slots around the exterior surface of the disk. In each slot is a conductor, for example cast aluminum or copper bars, enclosed within the slot by a magnetically non-conducting powder metal segment. A rotor assembly is also provided having a plurality of the composite powder metal disks mounted axially along a shaft with their magnetic configurations aligned. A method for making the powder metal disks is further provided including filling a die with the powder metals, compacting the powders, and sintering the compacted powders.

Abstract: A composite powder metal disk for a rotor assembly in a circumferential type interior permanent magnet machine. The disk includes an inner ring of magnetically conducting powder metal compacted and sintered to a high density. The disk further includes an outer ring of permanent magnets separated by magnetically non-conducting powder metal compacted and sintered to a high density. The permanent magnets additionally are radially embedded by magnetically conducting powder metal compacted and sintered to a high density with optional intermediate non-conducting powder metal bridges extending radially from the permanent magnets to the outer surface of the disk. A rotor assembly is also provided having a plurality of the composite powder metal disks mounted axially along a shaft with their magnetic configurations aligned. A method for making the composite powder metal disks is further provided including filling a die with the powder metals, compacting the powders, and sintering the compacted powders.

Abstract: A composite powder metal disk for a rotor assembly in a surface permanent magnet machine. The disk includes permanent magnets on the surface of an inner ring of magnetically conducting powder metal compacted and sintered to a high density. In one embodiment, the permanent magnets are separated by magnetically non-conducting powder metal compacted and sintered to a high density. A rotor assembly is also provided having a plurality of the composite powder metal disks mounted axially along a shaft with their magnetic configurations aligned. A method for making the composite powder metal disks is further provided including filling a die with the powder metals, compacting the powders, and sintering the compacted powders.

Abstract: A method for forming composite motor parts of two or more dissimilar materials by injection molding. Two or more different powder materials are injected under heat and pressure into cavities of a cylindrical-shaped mold and allowed to solidify to form a composite green compact. The final part may be used in machines of the type including permanent magnet, synchronous reluctance, switch reluctance and induction machines.

Abstract: A method of making powder metal compacted parts of multiple dissimilar materials. A die insert is provided having a pattern of cavities corresponding in shape to the shape of a die cavity. The pattern of cavities are filled with two or more dissimilar powder metals which are subsequently pressed within the die cavity to form a compacted powder metal part having at least two discrete regions of dissimilar material.

Abstract: A composite powder metal disk for a rotor assembly in a spoke type interior permanent magnet machine. The disk includes an inner ring of magnetically non-conducting powder metal compacted and sintered to a high density. The disk further includes an outer ring of radially extending permanent magnets separated by magnetically conducting powder metal compacted and sintered to a high density. The permanent magnets additionally are radially embedded by magnetically non-conducting powder metal compacted and sintered to a high density. A rotor assembly is also provided having a plurality of the composite powder metal disks mounted axially along a shaft with their magnetic configurations aligned. A method for making the composite powder metal disks is further provided including filling a die with the powder metals, compacting the powders, and sintering the compacted powders.

Abstract: A composite powder metal disk for a rotor assembly in a synchronous reluctance machine. The disk includes alternating regions of magnetically conducting powder metal and magnetically non-conducting powder metal compacted and sintered to a high density. A rotor assembly is also provided having a plurality of the composite powder metal disks mounted axially along a shaft with their magnetic configurations aligned. A method for making the composite powder metal disks is further provided including filling a die with the powder metals, compacting the powders, and sintering the compacted powders.

Abstract: A method for forming composite parts of two or more dissimilar materials by injection molding. Two or more different metallic- or ceramic-based powder materials are used to form two or more different feedstocks, which are each melted and injected under heat and pressure into mold cavities and allowed to solidify to form a composite green compact. In an example of the present invention, two or more powder materials are each mixed with a binder system and granulated to form feedstocks, the feedstocks are melted and concurrently or sequentially injected into a mold and allowed to solidify, and the solidified composite green compact is then subjected to binder removal and sintering processes.

Abstract: An edge-connected non-thermal plasma reactor includes an element having an edge-connected frame comprising a pair of dielectric edge connectors secured at opposite ends to a pair of outer dielectric plates. The dielectric edge connectors have a backplane and a plurality of tines protruding along one major surface of the backplane. The tines are spaced apart from one another at regular intervals so as to form pockets between adjacent tines. Alternating polarity electrode plates comprising a dielectric barrier plate having an electrode and terminal connection lead disposed on the dielectric barrier are arranged within the edge-connected frame so as to define the presence of a dielectric barrier next to a plasma cell, with the pockets engaging opposite ends of the electrode plates. Double and single dielectric edge-connected reactor elements are provided.