Polycrystalline diamond cutting tool with coated body
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B23B-051/00
B23D-077/02
출원번호
US-0249428
(2008-10-10)
등록번호
US-9079260
(2015-07-14)
발명자
/ 주소
Xiao, Xingcheng
Lukitsch, Michael J.
Sachdev, Anil K.
Lev, Leonid C.
출원인 / 주소
GM Global Technology Operations LLC
대리인 / 주소
Reising Ethington P.C.
인용정보
피인용 횟수 :
1인용 특허 :
35
초록▼
A cutting tool for machining metal workpieces using polycrystalline diamond cutting surfaces with interspersed guide surfaces and chip evacuation surfaces. When machining holes in cast aluminum alloy workpieces it is found that aluminum machining chips adhere to guide surfaces and chip evacuation su
A cutting tool for machining metal workpieces using polycrystalline diamond cutting surfaces with interspersed guide surfaces and chip evacuation surfaces. When machining holes in cast aluminum alloy workpieces it is found that aluminum machining chips adhere to guide surfaces and chip evacuation surfaces and mar the machined surface. It is found that when the guide and chip evacuation surfaces are coated with a diamond-like carbon material, aluminum chips do not mar the machined surfaces.
대표청구항▼
1. A rotatable hole-forming tool for machining aluminum alloy workpieces, the tool having an axis of rotation and a rounded external surface, the tool comprising: an elongated one-piece tool body comprising a tool holder portion and a hole-forming portion, each centered on the axis of rotation of th
1. A rotatable hole-forming tool for machining aluminum alloy workpieces, the tool having an axis of rotation and a rounded external surface, the tool comprising: an elongated one-piece tool body comprising a tool holder portion and a hole-forming portion, each centered on the axis of rotation of the tool;the hole-forming portion having a length for forming holes in workpieces, the hole-forming portion having a rounded external surface with one or more distinct regions along the hole-forming portion length, and an end surface for initial engagement with a workpiece, the rounded external surface of the hole-forming portion being formed with at least two inwardly-extending, opposing, V-shaped channels, each V-shaped channel being defined by two intersecting surfaces, a flat channel surface and a second channel surface, each of the channel surfaces being spaced apart at the external surface of the hole-forming portion and each surface extending inwardly from the external surface of the hole-making portion to intersect in an inner channel edge that extends parallel to, or along, the axis of rotation of the tool over a portion of the hole-forming portion of the tool body;the flat channel surface of each V-shaped channel having a first, brazed-on, aluminum-cutting, layer of sintered polycrystalline diamond (PCD), the first aluminum-cutting layer extending along a portion of the axial length of the first flat channel surface such that the first aluminum-cutting layer provides a drilling edge at an end surface for making a hole in a workpiece, and a reaming edge at the external surface of the hole-forming portion to size the hole formed by the drilling edge and to finish the surface of the hole;the second surface of each V-shaped channel intersecting the external surface of the hole-forming portion in an external surface region of the hole-making portion that is free of cutting edges or channels, and is diametrically smaller than the opposing cutting edge at the external surface of the hole-forming portion, the external surface region adjacent the edge of the second channel surface serving as a guide surface for the tool; andeach aluminum-cutting PCD layer, each first and second channel surface, and the external surface of the hole-forming region of the tool being coated with a friction-reducing layer for lubricating the rotation of the tool in the workpiece and promoting the flow of aluminum chips, produced by the rotating cutting edges of the tool, along the surfaces of each channel toward the tool holder portion of the hole-forming tool, the thickness of the friction-reducing layer having a range of from one to three micrometers. 2. The rotatable hole-forming tool recited in claim 1 in which the friction-reducing layer is diamond-like carbon. 3. The rotatable hole-forming tool recited in claim 1 in which the friction-reducing layer is hydrogenated diamond-like carbon. 4. The rotatable hole-forming tool recited in claim 1 in which the flat surfaces of the first and second V-shaped channels extend inwardly into the tool body by unequal distances. 5. The rotatable hole-forming tool recited in claim 1 in which the tool comprises one or more additional, brazed-on, aluminum-cutting, PCD layers of sintered polycrystalline diamond for providing additional cutting edges in the cutting portion of the tool, the one or more additional PCD layers being distanced from the first cutting layer and brazed to one or more flat channel surfaces. 6. The rotatable hole-forming tool recited in claim 5 in which the one or more additional cutting edges engage the cylindrical surface of the hole made by the one or more end cutting edges, the additional cutting edges being sized and adapted to enlarge the diameter of at least a portion of the cylindrical surface of the hole. 7. The rotatable hole-forming tool recited in claim 1 in which each of the channels is of varying cross-section along the length of the channel as it extends from the end of the hole-forming portion of the tool. 8. The rotatable hole-forming tool recited in claim 7 in which the channel extends into the tool holder portion of the tool body. 9. A rotatable hole-forming tool adapted for machining aluminum and aluminum alloys, the tool comprising: an elongated one-piece tool body with an axis of rotation and a rounded external surface, the body comprising, on an end, a hole-making portion with a length, and on a second end, a tool holder portion, the hole-making portion comprising a drill portion and one or more reamer portions, each of the drill and reamer portions comprising one or more polycrystalline diamond (PCD) cutting edges;two flutes for evacuation of cutting chips from the cutting edges and transport of cutting chips along the tool axis, the flutes extending the length of the hole-making portion and, optionally, further extending part-way into the tool holder portion, each flute comprising a drill flute portion, a reamer flute portion and a transition flute portion, each of the flute portions having a length and the transition flute portion being positioned between, and connecting, the drill flute portion and reamer flute portion;the drill and reamer flute portions each being bounded by a first, flat surface extending inwardly from the surface of the hole-making portion and comprising one or more brazed-on PCD layers having cutting edges, and a second surface extending inwardly from the surface of the holemaking portion and intersecting the first surface at an inner flute edge, at least a portion of the inner flute edge being parallel to the tool axis, the first and second surfaces defining, at each location along the length of the flute, a flute cross-sectional area, the cross-sectional area of the reamer flute portion being less than the cross-section of the drill flute portion and the area of the transition flute portion of the flute varying along its length, the transition flute portion being bounded by the first flat surface and a second surface arranged to smoothly transition the second flute surface between the second flute surface of the drill portion into the second flute surface of the reamer portion;each of the drill and reamer portions having two, generally-opposing, unequal length, guide surfaces, each of the surfaces of the drill portion guide surfaces being offset inwardly by about 3 micrometers from the surface of the swept surface of the drill cutting edges and each of the surfaces of the reamer portion guide surfaces being offset inwardly by about 3 micrometers from the swept surface of the corresponding one or more reamer cutting edges; and,at least the bounding surfaces of the flutes being coated with a single layer of a lubricious coating, the coating serving to inhibit adherence of aluminum or aluminum alloy machining chips to the flute surfaces, the coating thickness having a range of from one to three micrometers. 10. The hole-forming tool recited in claim 9 in which the lubricious coating layer is diamond-like carbon. 11. The hole-forming tool recited in claim 9 in which the lubricious coating layer is hydrogenated diamond-like carbon. 12. The hole-forming tool recited in claim 9 in which the cutting edges and guide surfaces are coated with the lubricious coating layer.
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