MR. THOMAS R NEWTON, M.D.
Osteopathic Medicine at Pinecroft Dr, Spring, TX

5025874, Jun 25, 1991

Apr 4, 1989

7/333120

John D. Barr - Cheltenham, GB2
Thomas A. Newton - Houston TX

Reed Tool Company Ltd. - Gloucestershire

E21B 1046

175329

A preform cutting element for a rotary drill bit includes a layer of polycrystalline diamond material, the rear face of which is bonded to the front face of a backing layer of less hard material, such as tungsten carbide. The rear face of the backing layer is substantially greater in area than the rear face of the diamond layer. A method of manufacturing such cutting elements comprises forming an intermediate structure comprising polycrystalline diamond material bonded between two outer layers of tungsten carbide, and then cutting the intermediate structure to provide two pieces, each of the pieces including part of the diamond material and at least a major part of a respective one of the two outer layers.

5135061, Aug 4, 1992

Aug 3, 1990

7/562115

Thomas A. Newton - Houston TX

E21B 1046

175428

A preform cutting element for a rotary drill bit for use in drilling or coring holes in subsurface formations includes a cutting table 12, 13 of superhard material such as polycrystalline diamond. The rear face of the cutting table is bonded to a substrate 11 of less hard material, such as cemented tungsten carbide. A front portion 12 of the cutting table comprises a form of superhard material which is less wear-resistant than the superhard material forming the remainder 13 of the cutting table. The provision of the less wear-resistant superhard material at the front cutting faces reduces the tendency of the cutting table to spall.

4995887, Feb 26, 1991

Apr 4, 1989

7/333297

John D. Barr - Cheltenham, GB2
Thomas A. Newton - Houston TX

Reed Tool Company Limited - Gloucestershire

B24B 100

51295

A cutting element for a rotary drill bit comprises a layer of polycrystalline diamond material having a front face and a rear face, a backing layer of less hard material bonded to the rear face of the diamond layer, and a front layer of less hard material bonded to the front face of the diamond layer and extending across at least the major part thereof. The front layer is thinner than the backing layer, at least in the vicinity of the cutting edge of the cutting element.

5061293, Oct 29, 1991

May 14, 1990

7/523322

John D. Barr - Cheltenham, Gloucestershire, GB2
Thomas A. Newton - Houston TX

B24D 300

51293

A preform cutting element for a rotary drill bit includes a layer of polycrystalline diamond material, the rear face of which is bonded to the front face of a backing layer of less hard material, such as tungsten carbide. The rear face of the backing layer is substantially greater in area than the rear face of the diamond layer. A method of manufacturing such cutting elements comprises forming an intermediate structure comprising polycrystalline diamond material bonded between two outer layers of tungsten carbide, and then cutting the intermediate structure to provide two pieces, each of the pieces including part of the diamond material and at least a major part of a respective one of the two outer layers.

4844185, Jul 4, 1989

Nov 10, 1987

7/119145

Thomas A. Newton - Houston TX
Michael C. Regan - Robinswood, GB2

Reed Tool Company Limited

E21B 1046

175329

A rotary drill bit for use in drilling or coring deep holes in subsurface formations comprises a bit body having a leading face and a gauge region, cutting elements mounted at the leading face of the bit body, and a passage in the bit body communicating with nozzles in the leading face of the bit body for supplying drilling fluid to the face for cooling and cleaning the cutting elements. Certain of the cutting elements each comprise a preform cutting element having a superhard front cutting face providing a cutting edge, and others of the cutting elements each comprise particles of hard material embedded in a front layer of a less hard material to form a cutting layer having a cutting edge. The distribution of the cutting elements over the leading face of the bit is such that the proportion of the combined length of cutting edges provided by preform cutting elements to the combined length of cutting edges provided by embedded-particle cutting elements generally increases with distance from the central axis of rotation of the bit.