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Polycrystalline compacts including crushed diamond nanoparticles, cutting elements and earth boring tools including such compacts, and methods of forming same

a technology of polycrystalline compacts and diamond nanoparticles, which is applied in the direction of construction, etc., can solve the problems of loss of beneficial characteristics of abrasion resistance, fracture toughness, and loss of thermal stability provided, and achieve the effect of improving the abrasion resistance and reducing the number of fractures

Active Publication Date: 2018-05-17
BAKER HUGHES HLDG LLC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

This method results in a polycrystalline diamond compact with enhanced thermal stability and mechanical durability, including improved abrasion resistance and reduced catalyst material volume, leading to a more effective cutting element for earth-boring tools.

Problems solved by technology

The presence of the catalyst material in the diamond table may contribute to thermal damage in the diamond table when the cutting element is heated during use, due to friction at the contact point between the cutting element and the formation.
However, challenges exist when trying to incorporate nanoparticles in bulk sintering processes including PCD.
During polycrystalline diamond compact synthesis, for example, the diamond nanoparticles may dissolve in the liquid state, infiltrating binder from the substrate or admixed binder under HTHP process conditions, resulting in the loss of the beneficial characteristics of abrasion resistance, fracture toughness, and thermal stability provided by the presence of the diamond nanoparticles.
Further, when a conventional cobalt-cemented tungsten carbide substrate is employed, sintering quality may be compromised due to the loss of binder volume available to the sintering process.
In addition, the presence of tightly packed diamond nanoparticles in a volume of diamond grains undergoing HTHP processing inhibits infiltration of liquid-state binder from the substrate through the diamond table, causing a less well sintered region in the diamond table as distance increases from the interface between the diamond table and the substrate, resulting in poor abrasion resistance and compromised mechanical integrity of the diamond table.

Method used

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  • Polycrystalline compacts including crushed diamond nanoparticles, cutting elements and earth boring tools including such compacts, and methods of forming same
  • Polycrystalline compacts including crushed diamond nanoparticles, cutting elements and earth boring tools including such compacts, and methods of forming same
  • Polycrystalline compacts including crushed diamond nanoparticles, cutting elements and earth boring tools including such compacts, and methods of forming same

Examples

Experimental program
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Effect test

embodiment 1

[0048]A method of fabricating polycrystalline diamond comprising encapsulating micron-sized diamond grains and crushed diamond nanoparticles in a canister and subjecting the micron-sized diamond grains and the crushed diamond nanoparticles in the presence of a binder to a pressure of at least 5.0 GPa and a temperature of at least 1000° C. to form inter-granular bonds between the micron-sized diamond grains and the crushed diamond nanoparticles.

embodiment 2

[0049]The method of Embodiment 1, wherein encapsulating micron-sized diamond grains and crushed diamond nanoparticles in a canister comprises mixing the binder with the micron-sized diamond grains and the crushed diamond nanoparticles.

embodiment 3

[0050]The method of Embodiment 1 or Embodiment 2, further comprising at least partially filling a volume between the micron-sized diamond grains with the binder.

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PUM

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Abstract

A polycrystalline compact comprises a plurality of diamond grains of micron size, submicron size, or both, and a plurality of crushed diamond nanoparticles disposed in interstitial spaces between the plurality of diamond grains. A method of forming a polycrystalline compact comprises combining a plurality of micron and / or submicron-sized diamond grains and a plurality of crushed diamond nanoparticles to form a mixture and sintering the mixture in a presence of a binder to form a polycrystalline hard material comprising a plurality of inter-bonded diamond grains and diamond nanoparticles. Cutting elements comprising a polycrystalline compact and earth-boring tools bearing such compacts are also disclosed.

Description

FIELD[0001]The present disclosure relates generally to polycrystalline diamond compacts, which may be used, for example, as cutting elements for earth-boring tools, and more particularly to polycrystalline diamond compacts including diamond nanoparticles, to methods of forming such compacts, and to cutting elements and earth-boring tools comprising such compacts.BACKGROUND[0002]Earth-boring tools for forming wellbores in subterranean earth formations generally include a plurality of cutting elements secured to a body. For example, fixed-cutter earth-boring rotary drill bits (also referred to as “drag bits”) include a plurality of cutting elements fixedly attached to a bit body of the drill bit. Roller cone earth-boring rotary drill bits may include cones mounted on bearing pins extending from legs of a bit body such that each cone is capable of rotating about the bearing pin on which it is mounted. A plurality of cutting elements may be mounted to each cone of the drill bit. In othe...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): E21B10/567E21B10/55
CPCE21B10/567E21B10/55B22F2304/058C22C26/00B22F2005/001B22F2304/054B22F2304/056C04B35/52
Inventor DIGIOVANNI, ANTHONY A.
Owner BAKER HUGHES HLDG LLC
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