CN104694775B - A kind of SiC/Al of adjustable thermal expansion2(WO4)3/ Al composite - Google Patents

Abstract

The invention belongs to technical field of composite materials, refer in particular to a kind of SiC/Al of adjustable thermal expansion₂(WO₄)₃/ Al composite.With Al as matrix, while low thermal expansion material SiC is reinforcement, by adding appropriate Al₂(WO₄)₃Powder is realizing the reduction of thermal coefficient of expansion；Al₂(WO₄)₃It is negative thermal expansion material, high temperature resistant, stable in properties, on the one hand by adding the thermal coefficient of expansion that it reduces original SiC/Al composite, on the other hand reduce the content of this high-hardness grinding material of SiC, improve the follow-up processing characteristics of composite；The present invention is to prepare the SiC/Al of adjustable thermal expansion by the preparation technology of powder metallurgy₂(WO₄)₃Al composite, SiC/Al₂(WO₄)₃Obvious reduction compared by/Al composite with the thermal coefficient of expansion of SiC/Al composite, has better met the needs to thermal coefficient of expansion for the electronic package material.

Description

A kind of SiC/Al of adjustable thermal expansion2(WO4)3/ Al composite

Technical field

The invention belongs to technical field of composite materials, refer in particular to a kind of SiC/Al of adjustable thermal expansion₂(WO₄)₃/ Al composite wood Material, by changing low thermal expansion material SiC and negative thermal expansion material Al₂(WO₄)₃Mass ratio swollen come the heat to adjust composite Swollen coefficient.

Background technology

With microelectronic component to high-performance, lightweight and miniaturization develop, and microelectronics proposes to encapsulating material Increasingly harsher requirement, composite used for electronic packaging typically uses, therefore at this in the environment of uniform temperature change Thermal dimensional stability in individual temperature range will ensure well, and thermal coefficient of expansion is a critically important parameter；SiC/Al is combined Material is a kind of new electronic package material, and its advantage is that the prices of raw materials are cheap, can only be shaped as complicated shape, have simultaneously There is a high heat conductance, high specific strength, high ratio modulus, wear-resistant, the low feature of density, for SiC/Al composite, most common Method be just to increase the content of the reinforcement SiC thermal coefficient of expansion to adjust material, the thermal expansion system of composite can be made Count by the 23 × 10 of aluminum^-6K^-1Drop to 7.5 × 10^-6K^-1Left and right, investigation of materials person have carried out numerous studies and report to this, grind Study carefully achievement and also obtain certain application in Electronic Packaging field；But SiC is a kind of high-hardness grinding material in itself, fragility is big, SiC Volume fraction bigger, the machinability of composite will decline, and this is subsequently machined with very big shadow to material Ring, make the development of SiC/Al composite hindered；How to realize the low swollen of composite under relatively low packing volume fraction Swollen, highly thermally conductive, stability and machinability are the key issues solving such material practical application, negative thermal expansion material Such issues that be found to be solution provides possibility, at present, is combined with negative thermal expansion material and Al base that to adjust composite heat swollen Swollen coefficient also seldom has been reported that.

The present invention is in the case that Al base content is constant, changes SiC content, is filled into negative thermal expansion material Al₂ (WO₄)₃, prepare the adjustable SiC/Al of thermal coefficient of expansion₂(WO₄)₃/ Al composite.

Content of the invention

The purpose of the present invention is in the case that Al base content is constant, changes the content of reinforcement SiC, is filled into negative heat swollen Swollen materials A l₂(WO₄)₃, prepare the SiC/Al of adjustable thermal expansion₂(WO₄)₃/ Al composite.The heat of the composite of gained is swollen Swollen coefficient has obtained reducing further compared with SiC/Al composite, is simultaneously achieved adjustable, is more nearly chip material Thermal coefficient of expansion.

A kind of SiC/Al of adjustable thermal expansion₂(WO₄)₃/ Al composite, raw material used is：SiC, pure Al powder, Al₂ (WO₄)₃Powder.

Preparation technology is：

(1) SiC powder, pure Al powder, Al are claimed in proportion₂(WO₄)₃Powder；Pure Al powder account for three kinds of powder gross masses 40%, SiC and Al₂(WO₄)₃Account for the 60% of three kinds of powder gross masses, wherein Al₂(WO₄)₃Account for the 10～30% of three kinds of powder gross masses；Powder is pressed Different proportion mix homogeneously.

(2) by after mix homogeneously powder put into mould in, after vibrating compacting on hydraulic press suppress, pressure be 5～ 7MPa, the dwell time is 1～3min, and sample is taken out in the demoulding.

(3) after the completion of tabletting, in vacuum tube furnace, sintering makes its densification；Using argon and hydrogen as shielding gas in stove Atmosphere, the flow of Ar is 1～1.5ml/s, H₂Flow be 0.3～0.5ml/s, sintering temperature is 400～650 DEG C, temperature retention time 1 ～3h, furnace cooling is obtained sample.

The mean diameter of described SiC is 20um.

A diameter of 10mm of described mould.

Al in step 1₂(WO₄)₃Optimum quality ratio be 30%.

Optimum pressure in step 2 is 6MPa, and the dwell time is 2min.

Optimal sintering temperature in step 3 is 600 DEG C, is incubated 3h, the flow of protective gas Ar is 1.5ml/s, H₂Stream Measure as 0.3ml/s.

It is an advantage of the invention that by adding negative thermal expansion material Al₂(WO₄)₃Prepare the SiC/Al of adjustable thermal expansion₂ (WO₄)₃/ Al composite, its thermal coefficient of expansion is (8.6～4.9) × 10^-6K^-1, thermal coefficient of expansion is adjustable, and process is simple.

With Al as matrix, while low thermal expansion material SiC is reinforcement, by adding appropriate Al₂(WO₄)₃Powder comes real The reduction of existing thermal coefficient of expansion；Al₂(WO₄)₃Negative thermal expansion material, high temperature resistant, stable in properties, on the one hand by add it Lai Reduce the thermal coefficient of expansion of original SiC/Al composite, on the other hand reduce the content of this high-hardness grinding material of SiC, improve multiple The follow-up processing characteristics of condensation material；The present invention is to prepare the SiC/Al of adjustable thermal expansion by the preparation technology of powder metallurgy₂ (WO₄)₃/ Al composite, SiC/Al₂(WO₄)₃/ Al composite is compared substantially with the thermal coefficient of expansion of SiC/Al composite Reduce, better met the needs to thermal coefficient of expansion for the electronic package material.

Brief description

Fig. 1 is the thermal dilatometry figure of comparative example 1 composite.

Fig. 2 is the thermal dilatometry figure of example 2 composite.

Fig. 3 is the thermal dilatometry figure of example 3 composite.

Fig. 4 is the thermal dilatometry figure of example 4 composite.

Specific embodiment

Comparative example 1

Raw material：Al powder, mass percent is 40%, SiC powder, and mass ratio is 60%.

Take the powder 0.5g of said ratio and mix homogeneously, load the mould into a diameter of 10mm, in pressure after vibrating compacting Suppress on piece machine, pressure is 6MPa, demoulding sampling after pressurize 2min；Put in vacuum tube furnace after the completion of compacting and be sintered, Vacuum drying oven is heated up with 5 DEG C/min heating rate, when being increased to 600 DEG C, is incubated 3h, the flow of protective gas Ar is 1.5ml/s, H₂Flow be 0.3ml/s, furnace cooling.

After testing, thermal dilatometry is as shown in figure 1, be calculated 25～230 DEG C of intervals through linear fit for gained sample The mean thermal expansion coefficients of interior composite is 9.4 × 10^-6K^-1.

Embodiment 2

Raw material：Al powder, mass percent is 40%, SiC powder, and mass ratio is 50%, Al₂(WO₄)₃Powder, mass ratio is 10%.

Take the powder 0.5g of said ratio and mix homogeneously, load the mould into a diameter of 10mm, in pressure after vibrating compacting Suppress on piece machine, pressure is 6MPa, demoulding sampling after pressurize 2min；Put in vacuum tube furnace after the completion of compacting and be sintered, Vacuum drying oven is heated up with 5 DEG C/min heating rate, when being increased to 600 DEG C, is incubated 3h, the flow of protective gas Ar is 1.5ml/s, H₂Flow be 0.3ml/s, furnace cooling.

After testing, thermal dilatometry is as shown in Fig. 2 be calculated 25～230 DEG C of intervals through linear fit for gained sample The mean thermal expansion coefficients of interior composite is 8.6 × 10^-6K^-1.

Embodiment 3

Raw material：Al powder, mass percent is 40%, SiC powder, and mass ratio is 40%, Al₂(WO₄)₃Powder, mass ratio is 20%.

Take the powder 0.5g of said ratio and mix homogeneously, load the mould into a diameter of 10mm, in pressure after vibrating compacting Suppress on piece machine, pressure is 6MPa, demoulding sampling after pressurize 2min；Put in vacuum tube furnace after the completion of compacting and be sintered, Vacuum drying oven is heated up with 5 DEG C/min heating rate, when being increased to 600 DEG C, is incubated 3h, the flow of protective gas Ar is 1.5ml/s, H₂Flow be 0.3ml/s, furnace cooling.

After testing, thermal dilatometry is as shown in figure 3, be calculated 25～230 DEG C of intervals through linear fit for gained sample The mean thermal expansion coefficients of interior composite is 7.7 × 10^-6K^-1.

Embodiment 4

Raw material：Al powder, mass percent is 40%, SiC powder, and mass ratio is 30%, Al₂(WO₄)₃Powder, mass ratio is 30%.

Take the powder 0.5g of said ratio and mix homogeneously, load the mould into a diameter of 10mm, in pressure after vibrating compacting Suppress on piece machine, pressure is 6MPa, demoulding sampling after pressurize 2min；Put in vacuum tube furnace after the completion of compacting and be sintered, Vacuum drying oven is heated up with 5 DEG C/min heating rate, when being increased to 600 DEG C, is incubated 3h, the flow of protective gas Ar is 1.5ml/s, H₂Flow be 0.3ml/s, furnace cooling.

After testing, thermal dilatometry is as shown in figure 3, be calculated 25～230 DEG C of intervals through linear fit for gained sample The mean thermal expansion coefficients of interior composite is 4.9 × 10^-6K^-1.

Comparative example 2

Raw material：Al powder, mass percent is 40%, SiC powder, and mass ratio is 20%, Al₂(WO₄)₃Powder, mass ratio is 40%.

Take the powder 0.5g of said ratio and mix homogeneously, load the mould into a diameter of 10mm, in pressure after vibrating compacting Suppress on piece machine, pressure is 6MPa, demoulding sampling after pressurize 2min；Put in vacuum tube furnace after the completion of compacting and be sintered, Vacuum drying oven is heated up with 5 DEG C/min heating rate, when being increased to 600 DEG C, is incubated 3h, the flow of protective gas Ar is 1.5ml/s, H₂Flow be 0.3ml/s, furnace cooling.

After testing, the evenly heat being calculated composite in 25～230 DEG C of intervals through linear fit is swollen for gained sample Swollen coefficient is 9.6 × 10^-6K^-1.

Claims (7)

1. a kind of SiC/Al of adjustable thermal expansion₂(WO₄)₃/ Al composite it is characterised in that：

(1) SiC powder, pure Al powder, Al are claimed in proportion₂(WO₄)₃Powder；Pure Al powder accounts for 40%, the SiC and Al of three kinds of powder gross masses₂ (WO₄)₃Account for the 60% of three kinds of powder gross masses, wherein Al₂(WO₄)₃Account for the 10～30% of three kinds of powder gross masses；Powder presses difference Ratio mix homogeneously；

(2) powder after mix homogeneously is put in mould, suppress on hydraulic press after vibrating compacting, pressure is 5～7MPa, protects The pressure time is 1～3min, and sample is taken out in the demoulding；

(3) after the completion of tabletting, in vacuum tube furnace, sintering makes its densification；Using argon and hydrogen as protective atmosphere, Ar in stove Flow be 1～1.5ml/s, H₂Flow be 0.3～0.5ml/s, sintering temperature is 400～650 DEG C, temperature retention time 1～3h, Furnace cooling is obtained sample.

2. a kind of SiC/Al of adjustable thermal expansion as claimed in claim 1₂(WO₄)₃/ Al composite it is characterised in that：Institute The mean diameter stating SiC is 20 μm.

3. a kind of SiC/Al of adjustable thermal expansion as claimed in claim 1₂(WO₄)₃/ Al composite it is characterised in that：Institute State a diameter of 10mm of mould.

4. a kind of SiC/Al of adjustable thermal expansion as claimed in claim 1₂(WO₄)₃/ Al composite it is characterised in that：Step Al in rapid 1₂(WO₄)₃Mass ratio be 30%.

5. a kind of SiC/Al of adjustable thermal expansion as claimed in claim 1₂(WO₄)₃/ Al composite it is characterised in that：Step Pressure in rapid 2 is 6MPa, and the dwell time is 2min.

6. a kind of SiC/Al of adjustable thermal expansion as claimed in claim 1₂(WO₄)₃/ Al composite it is characterised in that：Step Sintering temperature in rapid 3 is 600 DEG C, is incubated 3h, the flow of protective gas Ar is 1.5ml/s, H₂Flow be 0.3ml/s.

7. a kind of SiC/Al of adjustable thermal expansion as claimed in claim 1₂(WO₄)₃/ Al composite it is characterised in that：Its Thermal coefficient of expansion is (8.6～4.9) × 10^-6K^-1.