Method for preparing cubic boron nitride glomerocryst composite combined with high-entropy alloy

A technology of high-entropy alloy and boron nitride polymerization, which is applied in the field of materials, can solve the problems of reducing the high strength, hardness and heat resistance of PcBN, the high sintering temperature of ceramic binder, and the easy oxidation of metal binder, etc., to achieve the increase of powder The effect of sintering activity, uniform hardness and fine particles

Active Publication Date: 2016-07-06
YANSHAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] In summary, traditional PcBN binders include metal binders, ceramic binders and metal-ceramic composite binders, wherein metal binders are easily oxidized, soft, and have poor heat resistance (such as CN101627139A); ceramic binders have a high sintering temperature , low toughness (such as CN103030397A); and the metal-ceramic composite binder single element metal or alloy substance residue will reduce the high strength, hardness and heat resistance of PcBN, and the residue is unavoidable (such as CN102557647A)

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] Take 59g of cobalt, 56g of iron, 52g of chromium, 48g of titanium, 55g of manganese, 64g of copper, and 27g of aluminum, mix them and pour them into a ball mill jar, add balls according to the ratio of ball to material = 10:1, and add process control agent absolute ethanol 5mL; sealed and installed on a ball mill, ball milled for 24 hours, remove the ball mill jar, open and take out the high-entropy alloy binder; put 60g of cubic boron nitride single crystal with a particle size of 0.01, 0.5, 1.0μm and 40g of high-entropy alloy The binder is mixed evenly, and the cubic boron nitride single crystal particle size is: 0.01μm 10g, 0.5μm 20g, 1μm 30g. After mixing, put it into a mold, apply a pressure of 30MPa on the hydraulic press, keep it for 2 minutes, then slowly release the pressure, and take out the cold-pressed blank; put the obtained blank into a carbon tube furnace, and assemble it with a pressure transmission medium to form an assembly block ;Put the assembly bloc...

Embodiment 2

[0034]Take 59g of cobalt, 56g of iron, 52g of chromium, 48g of titanium, 55g of manganese, 96g of molybdenum, 64g of copper, and 27g of aluminum, mix them and pour them into a ball mill jar, add balls according to the ratio of ball to material = 10:1, and add process control agent 5 mL of absolute ethanol; sealed and installed on a ball mill, ball milled for 24 hours, removed the ball mill jar, opened and took out the high-entropy alloy binder; 80 g of cubic boron nitride single crystals with particle sizes of 0.5, 1.0, 5 μm and 20 g of high-entropy alloy The entropy alloy binder is mixed evenly, and the cubic boron nitride single crystal grain size is: 0.5μm20g, 1.0μm30g, 5μm30g. After mixing, put it into a mold, apply a pressure of 30MPa on the hydraulic press, keep it for 2 minutes, then slowly release the pressure, and take out the cold-pressed blank; put the obtained blank into a carbon tube furnace, and assemble it with a pressure transmission medium to form an assembly b...

Embodiment 3

[0036] Vanadium 50g, Chromium 52g, Titanium 48g, Manganese 55g, Molybdenum 96g, Copper 64g, Aluminum 27g, Silicon 28g, mix them and pour them into the ball mill tank, add balls according to the ratio of ball to material = 10:1, and add process control agent acetone 3mL; sealed and installed on a ball mill, ball milled for 24 hours, remove the ball mill jar, open and take out the high-entropy alloy binder; combine 95g of cubic boron nitride single crystal with a particle size of 10, 40, 60μm and 5g of high-entropy alloy The agent is mixed evenly, and the cubic boron nitride single crystal particle size is: 10μm 15g, 40μm 30g, 60μm 50g. After mixing, put it into a mold, apply a pressure of 30MPa on the hydraulic press, keep it for 2 minutes, then slowly release the pressure, and take out the cold-pressed blank; put the obtained blank into a carbon tube furnace, and assemble it with a pressure transmission medium to form an assembly block ;Put the assembly block between the anvil...

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Abstract

Provided is a method for preparing a cubic boron nitride glomerocryst composite combined with high-entropy alloy. The method mainly comprises the steps that 40% to 95% of cubic boron nitride single crystals and 5% to 60% of high-entropy alloy binding agent by mass are evenly mixed and contained in a mold, the mixture is subjected to cold pressing on a hydraulic machine to be prepared into compact, and the pressure ranges from 30 MPa to 50 MPa and is kept for 2 min; the obtained compact is contained in a carbon tube furnace and assembled with a pressure transmitting medium, an assembled block is formed and placed between top anvils of a high-pressure press, the pressure ranges from 4 GPa to 6 GPa, the assembled block is heated to 1,200 DEG C to 1,650 DEG C, and the temperature is kept for 2 min to 25 min; then the pressure is removed, the assembled block is cooled to 60 DEG C or below, and the assembled block is taken out to obtain cubic boron nitride glomerocryst. No elementary element exists in the glomerocryst, a soft spot is avoided, and the hardness is relatively high and uniform; the sintering temperature and the expansion coefficient are controllable, the sintering temperature is reduced, sintering is easy, the toughness of the glomerocryst is improved, and heat stability is improved.

Description

technical field [0001] The invention belongs to the field of materials, in particular to a method for preparing cubic boron nitride polycrystals. Background technique [0002] PcBN (Polycrystalline Cubic Boron Nitride, Polycrystalline Cubic Boron Nitride, referred to as Polycrystalline Cubic Boron Nitride) is prepared by bonding tiny single crystal particles of cubic boron nitride (cBN) under high temperature and high pressure (1350-1650°C, 4-6.5GPa) to form a block. PcBN) is used to make tool materials for processing hardened steel, chilled cast iron, ultra-high-strength iron group alloys, titanium alloys and other difficult-to-machine metals. The binder that plays a bonding role accounts for 5-60% of the mass ratio, which will seriously affect the overall performance of PcBN. The most important indicators of tool materials are hardness and toughness. The ideal PcBN is that there is no binder or the hardness of the binder is as close to cBN as possible, and it has suitable...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C29/16C22C1/05B22F3/14
CPCB22F3/14B22F2998/10C22C1/051C22C29/005C22C29/16B22F1/0003B22F3/02B22F2003/145
Inventor 王明智李艳国赵玉成邹芹郭洪凯李建敏
Owner YANSHAN UNIV
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