CN1911856A - Chromium carbide and carbon titanium nitride particle dispersion consolidated aluminium oxide base ceramic composite material and its preparation method - Google Patents

Abstract

The present invention relates to one kind of chromium carbide and titanium carbonitride grain reinforced and toughened Al2O3 base composite ceramic material and its preparation process. The composite ceramic material is prepared with Al2O3 ceramic as base, added hard Cr3C2 and Ti(C, N) ceramic grain as dispersed phase, and Y2O3 and MgO as sintering assistant, and through hot pressing and sintering. The composite ceramic material consists of Cr3C2 5-30 vol%, Ti(C, N) 5-30 vol%, Y2O3 0.2-2 vol%, MgO 0.2-1 vol%, and Al2O3 for the rest. Compared with available composite ceramics, the present invention has the advantages of excellent comprehensive performance, wear resistance, corrosion resistance, oxidation resistance and heat shock resistance. It may be used in making mold, cutter, nozzle and other antiwear and anticorrosive parts.

Description

Chromium carbide and carbon titanium nitride particle dispersion consolidatedization alumina ceramic composite material and preparation method thereof

(1) technical field

The present invention relates to a kind of ceramic composite and preparation method thereof, particularly a kind of chromium carbide (Cr ₃C ₂) and titanium carbonitride (particle dispersion consolidatedization of Ti (C, N)) aluminum oxide (Al ₂O ₃) based composite ceramic material and preparation method thereof.

(2) background technology

The advanced ceramics material has all obtained using widely at numerous areas such as machinery, electronics, Aeronautics and Astronautics, oil, chemical industry with its excellent physical and mechanical property and use properties.But the weakness of stupalith is its intrinsic fragility.In order to improve the fragility of stupalith, improve its intensity and toughness, numerous scholars have made big quantity research, and have obtained progress in various degree.Studies show that heterogeneous composite ceramic material is one of three great development trend of current structure stupalith, also is one of the research focus in this field.And stupalith develops to heterogeneous direction, for stupalith design provides wideer thinking leeway.Wherein, with the ceramic hard particle as the toughened and reinforced Al of disperse phase ₂O ₃Advantages such as base multiphase composite ceramic is simple with its technology, cost is low, high-temperature behavior is good have obtained increasingly extensive application in the structural ceramic material field, material component is mainly concerned with aluminum oxide/silicon carbide/carbon titanium (Al ₂O ₃/ SiC/TiC), aluminum oxide/titanium carbide/silicon nitride (Al ₂O ₃/ TiC/Si ₃N ₄), aluminum oxide/silicon carbide/carbon tungsten titanium (Al ₂O ₃/ SiC/ (W, Ti) C), aluminum oxide/carbon silicon/titanium carbonitride (Al ₂O ₃/ SiC/Ti (C, N)) and aluminum oxide/chromium carbide/tungsten carbide (Al ₂O ₃/ Cr ₃C ₂/ (W, Ti) C) etc.But the toughening effect of particle dispersion stupalith is undesirable always, and the fracture toughness property of material is general all at 6MPam ^1/2Below.Though bibliographical information Al is arranged ₂O ₃/ Cr ₃C ₂/ (W, Ti) fracture toughness property of C ceramic composite can reach 8.92MPam ^1/2, but its bending strength and hardness are all lower, only are 496MPa and 16.84GPa respectively.Therefore, not only comprehensive mechanical performance awaits further raising, and material category also awaits further expanding.

(3) summary of the invention

In order to overcome the weak point of prior art, the invention provides a kind of chromium carbide (Cr ₃C ₂) and titanium carbonitride (particle dispersion consolidatedization of Ti (C, N)) alumina ceramic composite material and preparation method thereof.

Al of the present invention ₂O ₃Based composite ceramic material is with Al ₂O ₃Pottery is a matrix, adds Cr simultaneously ₃C ₂And Ti (C, N) the ceramic hard particle is as disperse phase, with yttrium oxide (Y ₂O ₃) and magnesium oxide (MgO) form as the sintering aid hot pressed sintering.

Al of the present invention ₂O ₃Based composite ceramic material is composed of the following components, Cr ₃C ₂Be 5～30%, (C is 5～30% N) to Ti, Y ₂O ₃Be 0.2～2%, MgO is 0.2～1%, and all the other are Al ₂O ₃, be volume percent.

It is further preferred,

Described disperse phase Cr ₃C ₂Volume percent be 10～20%,

Described dispersed phase Ti (C, volume percent N) is 10～20%,

Described sintering aid Y ₂O ₃Volume percent be 0.4～1.5%,

The volume percent of described sintering aid MgO is 0.5～0.8%.

Preferably, in above-mentioned each component, used Al ₂O ₃And Cr ₃C ₂Be commercially available α-Al ₂O ₃And Cr ₃C ₂Powder, its purity are all greater than 99%, and mean particle size is 1 μ m～2 μ m; Used Ti (C, N) powder purity is greater than 99%, and mean particle size is 0.5 μ m～1.5 μ m.

Al of the present invention ₂O ₃The preparation method of based composite ceramic material, step is as follows:

(1) above-mentioned each component raw material being mixed in proportion, is protective atmosphere with the rare gas element, is medium with the dehydrated alcohol, is grinding element with the sintered carbide ball, ball milling 20～80 hours;

(2) dry in vacuum drying oven then, in above-mentioned inert gas flow, sieve behind the complete drying, obtain powder, seal standby;

(3) adopt the pressure sintering sintering, in hot pressing furnace with the powder pressing mold sinter molding of step (2) gained.

Preferably, the pellet weight ratio of each component raw material and sintered carbide ball is 1: 8～10 in the step (1).

Preferably, the operation of above-mentioned steps (3) is as follows:

The graphite jig of earlier powder of step (2) gained being packed into carries out hot pressed sintering then, and protective atmosphere is a rare gas element; Hot pressing parameters is: hot pressing pressure 28～30MPa, 1650 ℃～1750 ℃ of hot pressing temperatures, soaking time 20～45 minutes.Get product chromium carbide (Cr ₃C ₂) and titanium carbonitride (particle dispersion consolidatedization of Ti (C, N)) alumina ceramic composite material.

Preferably, above-mentioned rare gas element is one of nitrogen, argon gas.

Al of the present invention ₂O ₃Based composite ceramic material is by adding Cr simultaneously ₃C ₂And Ti (C, N) the two-phase hard particles improves intensity, toughness and the hardness of material simultaneously as disperse phase, has significantly improved the mechanical property and the use properties of material, and has the advantage that the preparation method is simple, cost is low.Compare with existing heterogeneous composite ceramics, this matrix material has improved comprehensive mechanical performance and good wear-resistant, corrosion-resistant, anti-oxidant and thermal shock resistance, can be used for making mould, cutter, nozzle, wear-and corrosion-resistant component etc.

(4) embodiment

The present invention will be further described below in conjunction with embodiment.In the component of each embodiment, used Al ₂O ₃And Cr ₃C ₂Be commercially available α-Al ₂O ₃And Cr ₃C ₂Powder, its purity are all greater than 99%, and mean particle size is 1 μ m; Used Ti (C, N) powder purity is greater than 99%, and mean particle size is 0.5 μ m.

Embodiment 1

The Al of present embodiment ₂O ₃Based composite ceramic material, the volume percent of its each component is: α-Al ₂O ₃68.7%, Cr ₃C ₂15%, Ti (C, N) 15%, Y ₂O ₃0.8%, MgO0.5%.Each component raw material is mixed according to the above ratio; with nitrogen is protective atmosphere; with the dehydrated alcohol is medium; with the sintered carbide ball is grinding element, and the pellet weight ratio is 1: 8, ball milling 80 hours; dry in vacuum drying oven then; sieve in nitrogen gas stream behind the complete drying, the graphite jig of then powder being packed into is that protective atmosphere carries out hot pressed sintering with nitrogen.Hot pressing parameters is: hot pressing pressure 28MPa, hot pressing temperature 1700C, soaking time 30 minutes.Then the stupalith sample that makes is carried out cutting processing, record its mechanical property parameters and be: bending strength is 715MPa, and fracture toughness property is 8.58MPam ^1/2, hardness is 20.9GPa.

Embodiment 2

The Al of present embodiment ₂O ₃Based composite ceramic material, the volume percent of its each component is: α-Al ₂O ₃73.8%, Cr ₃C ₂15%, Ti (C, N) 10%, Y ₂O ₃0.4%, MgO0.8%.Each component raw material is mixed according to the above ratio; with the argon gas is protective atmosphere; with the dehydrated alcohol is medium; with the sintered carbide ball is grinding element, and the pellet weight ratio is 1: 10, ball milling 40 hours; dry in vacuum drying oven then; sieve in argon gas stream behind the complete drying, the graphite jig of then powder being packed into is that protective atmosphere carries out hot pressed sintering with the argon gas.Hot pressing parameters is: hot pressing pressure 28MPa, 1750 ℃ of hot pressing temperatures, soaking time 20 minutes.Then the stupalith sample that makes is carried out cutting processing, record its mechanical property parameters and be: bending strength is 659MPa, and fracture toughness property is 8.72MPam ^1/2, hardness is 19.8GPa.

Embodiment 3

The Al of present embodiment ₂O ₃Based composite ceramic material, the volume percent of its each component is: α-Al ₂O ₃64%, Cr ₃C ₂10%, Ti (C, N) 25%, Y ₂O ₃0.5%, MgO0.5%.Each component raw material is mixed according to the above ratio; with the argon gas is protective atmosphere; with the dehydrated alcohol is medium; with the sintered carbide ball is grinding element, and the pellet weight ratio is 1: 8, ball milling 60 hours; dry in vacuum drying oven then; sieve in argon gas stream behind the complete drying, the graphite jig of then powder being packed into is that protective atmosphere carries out hot pressed sintering with the argon gas.Hot pressing parameters is: hot pressing pressure 30MPa, 1680 ℃ of hot pressing temperatures, soaking time 45 minutes.Then the stupalith sample that makes is carried out cutting processing, record its mechanical property parameters and be: bending strength is 701MPa, and fracture toughness property is 7.87MPam ^1/2, hardness is 21.1GPa.

Embodiment 4

The Al of present embodiment ₂O ₃Based composite ceramic material, the volume percent of its each component is: α-Al ₂O ₃63.3%, Cr ₃C ₂20%, Ti (C, N) 15%, Y ₂O ₃1.5%, MgO0.2%.Each component raw material is mixed according to the above ratio; with nitrogen is protective atmosphere; with the dehydrated alcohol is medium; with the sintered carbide ball is grinding element, and the pellet weight ratio is 1: 9, ball milling 50 hours; dry in vacuum drying oven then; sieve in nitrogen gas stream behind the complete drying, the graphite jig of then powder being packed into is that protective atmosphere carries out hot pressed sintering with nitrogen.Hot pressing parameters is: hot pressing pressure 30MPa, 1700 ℃ of hot pressing temperatures, soaking time 45 minutes.Then the stupalith sample that makes is carried out cutting processing, record its mechanical property parameters and be: bending strength is 647MPa, and fracture toughness property is 9.23MPam ^1/2, hardness is 22.3GPa.

Claims (10)

1. an alumina ceramic composite material is characterized in that: with Al ₂O ₃Pottery is a matrix, adds Cr simultaneously ₃C ₂And Ti (C, N) the ceramic hard particle is as disperse phase, with Y ₂O ₃Form as the sintering aid hot pressed sintering with MgO.

2. alumina ceramic composite material according to claim 1 is characterized in that component is as follows: Cr ₃C ₂Be 5～30%, (C is 5～30% N) to Ti, Y ₂O ₃Be 0.2～2%, MgO is 0.2～1%, and all the other are Al ₂O ₃, be volume percent.

3. alumina ceramic composite material according to claim 1 and 2 is characterized in that, described disperse phase Cr ₃C ₂Volume percent be 10～20%.

4. alumina ceramic composite material according to claim 1 and 2 is characterized in that, (C, volume percent N) is 10～20% to described dispersed phase Ti.

5. alumina ceramic composite material according to claim 1 and 2 is characterized in that, described sintering aid Y ₂O ₃Volume percent be 0.4～1.5%.

6. alumina ceramic composite material according to claim 1 and 2 is characterized in that, the volume percent of described sintering aid MgO is 0.5～0.8%.

7. the preparation method of claim 1 or 2 described alumina ceramic composite materials, step is as follows:

(1) above-mentioned each component raw material being mixed in proportion, is protective atmosphere with the rare gas element, is medium with the dehydrated alcohol, is grinding element with the sintered carbide ball, ball milling 20～80 hours;

(2) dry in vacuum drying oven then, in above-mentioned inert gas flow, sieve behind the complete drying, seal standby then;

(3) adopt the pressure sintering sintering, in hot pressing furnace with the powder pressing mold sinter molding of step (2) gained.

8. the preparation method of alumina ceramic composite material according to claim 7 is characterized in that, the pellet weight ratio of each component raw material and sintered carbide ball is 1: 8～10 in the step (1).

9. the preparation method of alumina ceramic composite material according to claim 7 is characterized in that, the technology of step (3) is as follows:

The graphite jig of earlier powder of step (2) gained being packed into carries out hot pressed sintering then, and protective atmosphere is a rare gas element; Hot pressing parameters is: hot pressing pressure 28～30MPa, 1650 ℃～1750 ℃ of hot pressing temperatures, soaking time 20～45 minutes.Get product chromium carbide (Cr ₃C ₂) and titanium carbonitride (particle dispersion consolidatedization of Ti (C, N)) alumina ceramic composite material.

10. the preparation method of alumina ceramic composite material according to claim 7 is characterized in that, described rare gas element is one of nitrogen, argon gas.