Claims
- 1. A polycrystalline diamond element comprising a body of bonded diamond crystals bonded to a substrate of less hard material, and a working surface on the body, wherein a first volume of the body remote from the working surface contains a catalyzing material, a second volume of the body adjacent to the working surface is substantially free of the catalyzing material, the catalyzing material remaining within the second volume of the body increases with distance from the working surface and adheres to surfaces of the diamond crystals, wherein the second volume extends to a depth of at least about 0.1 mm from the working surface.
- 2. The polycrystalline diamond element of claim 1, wherein the second volume extends to a depth of between about 0.2 mm and about 0.3 mm from the working surface.
- 3. The polycrystalline diamond element of claim 1, wherein the second volume of the body has an average volume density of the bonded diamond crystals that is higher than an average volume density of the bonded diamond crystals of the entire body.
- 4. The polycrystalline diamond element of claim 1, wherein the body comprises a continuous interstitial matrix, and wherein the interstitial matrix extends into both the first and second volumes.
- 5. The polycrystalline diamond element of claim 1, wherein the diamond crystals in the second volume adjacent to the working surface have less catalyzing material adhering to their surfaces than the diamond crystals in the second volume which are remote from the working surface.
- 6. The polycrystalline diamond element of claim 1, wherein the less hard material is cemented tungsten carbide.
- 7. A polycrystalline diamond element comprising a body of bonded diamond crystals bonded to a substrate of less hard material, and a working surface on the body, wherein a first volume of the body remote from the working surface contains a catalyzing material, a second volume of the body adjacent to the working surface is substantially free of the catalyzing material, wherein the second volume has a substantially higher volume density of the bonded diamond crystals than elsewhere in the body and extends to a depth of at least about 0.1 mm from the working surface.
- 8. The polycrystalline diamond element of claim 7, wherein the second volume extends to a depth of between about 0.2 mm and about 0.3 mm from the working surface.
- 9. The polycrystalline diamond element of claim 8, wherein the less hard material is cemented tungsten carbide.
- 10. The polycrystalline diamond element of claim 7, wherein the diamond crystals in the second volume adjacent to the working surface have less catalyzing material adhering to their surfaces than the diamond crystals in the second volume which are remote from the working surface.
- 11. A polycrystalline diamond element comprising a body of bonded diamond crystals bonded to a substrate of less hard material, a catalyzing material, and an interstitial matrix, a working surface on the body, the interstitial matrix in the body adjacent to the working surface is substantially free of the catalyzing material to a depth of at least about 0.1 mm from the working surface, and the remaining interstitial matrix contains the catalyzing material, wherein the catalyzing material remaining within the interstitial matrix in the body adjacent to the working surface continuously increases with distance from the working surface and adheres to surfaces of the diamond crystals.
- 12. The polycrystalline diamond element of claim 11, wherein the interstitial matrix in the body adjacent to the working surface substantially free of the catalyzing material extends to a depth of between about 0.2 mm and about 0.3 mm from the working surface.
- 13. The polycrystalline diamond element of claim 11, wherein the the interstitial matrix in the body adjacent to the working surface has an average volume density of the bonded diamond crystals that is higher than art average volume density of the bonded diamond crystals of the entire body.
- 14. The polycrystalline diamond element of claim 11, wherein the less hard material is cemented tungsten carbide.
- 15. A polycrystalline diamond element comprising a body of bonded diamond crystals bonded to a substrate of less hard material, a catalyzing material and an interstitial matrix;a working surface on the body; the interstitial matrix in the body adjacent to the working surface is substantially free of the catalyzing material to a depth of at least about 0.1 mm from the working surface, and the remaining interstitial matrix contains the catalyzing material, wherein the interstitial matrix in the body adjacent to the working surface has a substantially higher volume density of the bonded diamond crystals than elsewhere in the body.
- 16. The polycrystalline diamond element of claim 15, wherein the second volume extends to a depth of between about 0.2 mm and about 0.3 mm from the working surface.
- 17. The polycrystalline diamond element of claim 15, wherein the less hard material is cemented tungsten carbide.
CROSS REFERENCE TO RELATED APPLICATIONS
This application claims priority from U.S. Provisional Patent Application No. 60/234,075 filed Sep. 20, 2000, and from U.S. Provisional Patent Application No. 60/281,054 filed Apr. 2, 2001.
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