CN107699724A - High-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite material and preparation method thereof - Google Patents

Abstract

High-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite material and preparation method thereof, is related to a kind of alloy composite materials preparation method, the composition of composite is：High-entropy alloy AlCoCrFeNi（at.%）With three-dimensional connected porous TiC skeleton, and the porosity of porous silicon carbide titanium skeleton be 30% ~ 80%, pore size be 50 ~ 350 μm；Preparation process includes, dispensing：Simple substance raw material used is not less than 99.9 wt% Al, Co, Cr, Fe, Ni using purity.Foundry alloy melting：Tungsten electrode magnetic control arc stove working chamber is evacuated to 8 × 10 4 Pa, then is passed through the high-purity argon gas that purity is 99.99 wt.%.Prepare high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite：The preparation method that the invention uses is infiltration water quenching.The composite solves the problems, such as that existing high-entropy alloy composite material compositions are uneven, structural instability, has excellent mechanical property under the conditions of large scale sample experiments, has intensity height, stable performance, flawless feature.

Description

High-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite material and preparation method thereof

Technical field

The present invention relates to a kind of alloy composite materials preparation method, more particularly to a kind of high-entropy alloy/porous silicon carbide titanium Two-phase three-dimensional communication composite material and preparation method thereof.

Background technology

The development of modern science and technology proposes higher and higher requirement to material, and common homogenous material is increasingly It is difficult to the needs for meeting objective situation, then the more excellent composite of combination property is increasingly subject to attracting attention for people.High entropy Alloy-base composite material has crystal structure simple, does not occur other complicated phases in tissue, and it is mutually and high to combine enhancing The excellent properties of entropy alloy-base body, therefore scientific research value is higher, has a extensive future.

At present, high-entropy alloy composite mainly include additional high-strength ceramic particle enhancing high-entropy alloy composite or Raw high-entropy alloy composite in person.Its main preparation methods has powder metallurgic method, height（In）Frequency sensing stove heat and copper mold casting Method etc..Closed for example, Ren Haidi prepares the high entropy of the more pivots of in-situ authigenic using SHS process and vacuum arc melting method Auri composite；A kind of additional nano ceramics mutually strengthens toughening high-entropy alloy composite material and preparation method thereof (CN201610030517.4), using high-entropy alloy particle as matrix phase, while additional nano ceramics, make additional nano ceramics phase Segregation causes to extrude in solid solution grain boundaries, generation ceramic phase enhancing to the face-centered cubic solid solution of toughness, forms deformation Twin, so as to realize that the strong modeling of high-entropy alloy composite combines, prepare the high-entropy alloy composite of high-strength and high ductility.

Because in situ composite material, the precipitation pattern and amount of precipitation of interior raw phase are prepared curing condition and significantly affected, Make the institutional framework of its sample there is unpredictability, this has also had a strong impact on its practical application.Strengthen high entropy for particle Alloy composite materials, ceramic particle strengthens composite because its non-deformability is very weak, substantially without practical application valency Value；In addition, using traditional copper mold casting method, when additional grain volume fraction is too high, in sample the distribution of particle be difficult to Control, so as to cause the uneven components of sample；Particularly when preparing large-sized amorphous and its composite, copper mold casting The defects of more, such as bubble can also be introduced by making method, be mingled with, and have a strong impact on the stability of its mechanical property.

In summary, in order to making high-entropy alloy composite turn into engineer applied material, it is necessary to optimized alloy composition, Novel preparation process is developed, prepares that composition is uniform, the constitutionally stable high-entropy alloy composite with excellent mechanical property.

The content of the invention

It is an object of the invention to provide a kind of high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite preparation side Method, the composite high-entropy alloy phase and enhancing and are evenly distributed at phase space three-dimensional communication, and two-phase is mutually strengthened, and solves existing The problem of high-entropy alloy composite material compositions are uneven, structural instability.The high-entropy alloy composite is real in large scale sample There is excellent mechanical property under the conditions of testing, there is intensity height, stable performance, flawless feature.

The purpose of the present invention is achieved through the following technical solutions：

The present invention provides a kind of high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite, and specific embodiment is from multiple The composition of condensation material is：High-entropy alloy AlCoCrFeNi（at.%）With three-dimensional connected porous TiC skeleton, and porous silicon carbide titanium The porosity of skeleton is 30% ~ 80%, and pore size is 50 ~ 350 μm.

The invention provides the preparation method of above-mentioned high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite, tool Body step is as follows：

（1）Dispensing：Simple substance raw material used in experiment is not less than 99.9 wt% Al, Co, Cr, Fe, Ni using purity.Removed with steel brush The oxide-film on Al, Co, Cr, Fe and Ni surface is removed, the quality of above-mentioned simple substance raw material, above-mentioned simple substance are weighed up using precision electronic balance The gross mass of raw material is 120 grams.Then carry out ultrasonic wave to above-mentioned simple substance raw material with petroleum ether and absolute ethyl alcohol to clean, finally handle Above-mentioned simple substance raw material, which is mixed, to be put into inside tungsten electrode magnetic control arc stove.

（2）Foundry alloy melting：Tungsten electrode magnetic control arc stove working chamber is evacuated to 8 × 10^-4Pa, then be passed through purity and be 99.99 wt.% high-purity argon gas.Titanium is melted, by Titanium at high temperature strong oxidation reaction further to drop The partial pressure of oxygen in low working chamber, then the above-mentioned simple substance raw material of melting again, becomes mother alloy ingot.To ensure mother alloy ingot Chemical composition uniformity, mother alloy ingot at least needs to turn refining 5 times.After the completion of melting, mother alloy ingot is with tungsten electrode magnetic control electricity Arc stove is cooled to room temperature, then opens tungsten electrode magnetic control arc stove and takes out mother alloy ingot.

（3）Prepare high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite：The preparation method that the invention uses for Infiltration water quenching.Above-mentioned mother alloy ingot is crushed to fritter alloy, then connected fritter alloy and the three-dimensional of Different porosities Logical POROUS TITANIUM skeleton is heated to 1300-1450 under a high vacuum ^oC, finally alloy molten solution high pressure is penetrated into or squeezed into three-dimensional connect Logical POROUS TITANIUM skeleton, behind the abundant full porous silicon carbide titanium matrix porosity of seepage flow filling of alloy molten solution, steel pipe is quenched in water, obtained High-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite.

The present invention has advantages below：

After 1. high-entropy alloy and three-dimensional connected porous TiC skeleton are compound, matrix phase and enhancing distributed mutually are uniform, and two-phase The structure of three-dimensional communication so that the cooperative transformation of high-entropy alloy alloy and three-dimensional connected porous TiC skeleton, thus prepare High-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite has higher intensity.

2. preparation method of the present invention is infiltration water quenching, infiltration water quenching can prepare large-size and property The sample of the excellent stabilization of energy, the sample being prepared have the defects of less, such as stomata, are mingled with, and process conditions are simple It is easily controllable.Above-mentioned advantage surface, the present invention have very big future in engineering applications.

Embodiment

The present invention is described in detail by the following examples.

Embodiment 1

The present invention provides a kind of high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite, and specific embodiment is from multiple The composition of condensation material is：High-entropy alloy AlCoCrFeNi（at.%）With three-dimensional connected porous TiC skeleton, and porous silicon carbide titanium The porosity of skeleton is 30%, and pore size is 300 μm.

The invention provides the preparation method of above-mentioned high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite, tool Body step is as follows：

（1）Dispensing：Simple substance raw material used in experiment is not less than 99.9 wt% Al, Co, Cr, Fe, Ni using purity.Removed with steel brush The oxide-film on Al, Co, Cr, Fe and Ni surface is removed, the quality of above-mentioned simple substance raw material, above-mentioned simple substance are weighed up using precision electronic balance The gross mass of raw material is 120 grams.Then carry out ultrasonic wave to above-mentioned simple substance raw material with petroleum ether and absolute ethyl alcohol to clean, finally handle Above-mentioned simple substance raw material, which is mixed, to be put into inside tungsten electrode magnetic control arc stove.

（2）Foundry alloy melting：Tungsten electrode magnetic control arc stove working chamber is evacuated to 8 × 10^-4Pa, then be passed through purity and be 99.99 wt.% high-purity argon gas.Titanium is melted, by Titanium at high temperature strong oxidation reaction further to drop The partial pressure of oxygen in low working chamber, then the above-mentioned simple substance raw material of melting again, becomes mother alloy ingot.To ensure mother alloy ingot Chemical composition uniformity, mother alloy ingot at least needs to turn refining 5 times.After the completion of melting, mother alloy ingot is with tungsten electrode magnetic control electricity Arc stove is cooled to room temperature, then opens tungsten electrode magnetic control arc stove and takes out mother alloy ingot.

（3）Prepare high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite：The preparation method that the invention uses for Infiltration water quenching.Above-mentioned mother alloy ingot is crushed to fritter alloy, then connected fritter alloy and the three-dimensional of Different porosities Logical POROUS TITANIUM skeleton is heated to 1300 under a high vacuum^oC, finally alloy molten solution high pressure is penetrated into or squeezed into three-dimensional connected porous Titanium skeleton, behind the full porous silicon carbide titanium matrix porosity of alloy molten solution abundant seepage flow filling, steel pipe is quenched in water, obtains high entropy and closes Gold/porous silicon carbide titanium two-phase three-dimensional communication composite.

Embodiment 2

The present invention provides a kind of high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite, and specific embodiment is from multiple The composition of condensation material is：High-entropy alloy AlCoCrFeNi（at.%）With three-dimensional connected porous TiC skeleton, and porous silicon carbide titanium The porosity of skeleton is 50%, and pore size is 100 μm.

The invention provides the preparation method of above-mentioned high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite, tool Body step is as follows：

（1）Dispensing：Simple substance raw material used in experiment is not less than 99.9 wt% Al, Co, Cr, Fe, Ni using purity.Removed with steel brush The oxide-film on Al, Co, Cr, Fe and Ni surface is removed, the quality of above-mentioned simple substance raw material, above-mentioned simple substance are weighed up using precision electronic balance The gross mass of raw material is 120 grams.Then carry out ultrasonic wave to above-mentioned simple substance raw material with petroleum ether and absolute ethyl alcohol to clean, finally handle Above-mentioned simple substance raw material, which is mixed, to be put into inside tungsten electrode magnetic control arc stove.

（2）Foundry alloy melting：Tungsten electrode magnetic control arc stove working chamber is evacuated to 8 × 10^-4Pa, then be passed through purity and be 99.99 wt.% high-purity argon gas.Titanium is melted, by Titanium at high temperature strong oxidation reaction further to drop The partial pressure of oxygen in low working chamber, then the above-mentioned simple substance raw material of melting again, becomes mother alloy ingot.To ensure mother alloy ingot Chemical composition uniformity, mother alloy ingot at least needs to turn refining 5 times.After the completion of melting, mother alloy ingot is with tungsten electrode magnetic control electricity Arc stove is cooled to room temperature, then opens tungsten electrode magnetic control arc stove and takes out mother alloy ingot.

（3）Prepare high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite：The preparation method that the invention uses for Infiltration water quenching.Above-mentioned mother alloy ingot is crushed to fritter alloy, then connected fritter alloy and the three-dimensional of Different porosities Logical POROUS TITANIUM skeleton is heated to 1350 under a high vacuum^oC, finally alloy molten solution high pressure is penetrated into or squeezed into three-dimensional connected porous Titanium skeleton, behind the full porous silicon carbide titanium matrix porosity of alloy molten solution abundant seepage flow filling, steel pipe is quenched in water, obtains high entropy and closes Gold/porous silicon carbide titanium two-phase three-dimensional communication composite.

Embodiment 3

The present invention provides a kind of high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite, and specific embodiment is from multiple The composition of condensation material is：High-entropy alloy AlCoCrFeNi（at.%）With three-dimensional connected porous TiC skeleton, and porous silicon carbide titanium The porosity of skeleton is 80%, and pore size is 200 μm.

The invention provides the preparation method of above-mentioned high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite, tool Body step is as follows：

（1）Dispensing：Simple substance raw material used in experiment is not less than 99.9 wt% Al, Co, Cr, Fe, Ni using purity.Removed with steel brush The oxide-film on Al, Co, Cr, Fe and Ni surface is removed, the quality of above-mentioned simple substance raw material, above-mentioned simple substance are weighed up using precision electronic balance The gross mass of raw material is 120 grams.Then carry out ultrasonic wave to above-mentioned simple substance raw material with petroleum ether and absolute ethyl alcohol to clean, finally handle Above-mentioned simple substance raw material, which is mixed, to be put into inside tungsten electrode magnetic control arc stove.

（2）Foundry alloy melting：Tungsten electrode magnetic control arc stove working chamber is evacuated to 8 × 10^-4Pa, then be passed through purity and be 99.99 wt.% high-purity argon gas.Titanium is melted, by Titanium at high temperature strong oxidation reaction further to drop The partial pressure of oxygen in low working chamber, then the above-mentioned simple substance raw material of melting again, becomes mother alloy ingot.To ensure mother alloy ingot Chemical composition uniformity, mother alloy ingot at least needs to turn refining 5 times.After the completion of melting, mother alloy ingot is with tungsten electrode magnetic control electricity Arc stove is cooled to room temperature, then opens tungsten electrode magnetic control arc stove and takes out mother alloy ingot.

（3）Prepare high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite：The preparation method that the invention uses for Infiltration water quenching.Above-mentioned mother alloy ingot is crushed to fritter alloy, then connected fritter alloy and the three-dimensional of Different porosities Logical POROUS TITANIUM skeleton is heated to 1350 under a high vacuum^oC, finally alloy molten solution high pressure is penetrated into or squeezed into three-dimensional connected porous Titanium skeleton, behind the full porous silicon carbide titanium matrix porosity of alloy molten solution abundant seepage flow filling, steel pipe is quenched in water, obtains high entropy and closes Gold/porous silicon carbide titanium two-phase three-dimensional communication composite.

Claims (1)

1. high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite material and preparation method thereof, it is characterised in that the composite Composition be：High-entropy alloy AlCoCrFeNi（at.%）With three-dimensional connected porous TiC skeleton, and porous silicon carbide titanium skeleton Porosity is 30% ~ 80%, and pore size is 50 ~ 350 μm；

Its preparation method includes procedure below：

（1）Dispensing：Simple substance raw material used is not less than 99.9 wt% Al, Co, Cr, Fe, Ni using purity；Removed with steel brush The oxide-film on Al, Co, Cr, Fe and Ni surface, the quality of above-mentioned simple substance raw material is weighed up using precision electronic balance, and above-mentioned simple substance is former The gross mass of material is 120 grams；Then carry out ultrasonic wave to above-mentioned simple substance raw material with petroleum ether and absolute ethyl alcohol to clean, finally upper State simple substance raw material and be mixed and be put into inside tungsten electrode magnetic control arc stove；

（2）Foundry alloy melting：Tungsten electrode magnetic control arc stove working chamber is evacuated to 8 × 10^-4Pa, then purity is passed through as 99.99 Wt.% high-purity argon gas；Titanium is melted, by Titanium at high temperature strong oxidation reaction further to reduce work The partial pressure of intracavitary oxygen, then the above-mentioned simple substance raw material of melting again, becomes mother alloy ingot；To ensure the chemistry of mother alloy ingot Homogeneity of ingredients, mother alloy ingot at least need to turn refining 5 times；After the completion of melting, mother alloy ingot is cold with tungsten electrode magnetic control arc stove But to room temperature, then open tungsten electrode magnetic control arc stove and take out mother alloy ingot；

（3）Prepare high-entropy alloy/porous silicon carbide titanium two-phase three-dimensional communication composite：The preparation method used is infiltration water quenching Method；Above-mentioned mother alloy ingot is crushed to fritter alloy, then by fritter alloy and the three-dimensional connected porous titanium of Different porosities Skeleton is heated to 1300-1450 under a high vacuum ^oC, finally three-dimensional connected porous titanium is penetrated into or squeezed into alloy molten solution high pressure Skeleton, behind the full porous silicon carbide titanium matrix porosity of alloy molten solution abundant seepage flow filling, steel pipe is quenched in water, obtains high entropy and closes Gold/porous silicon carbide titanium two-phase three-dimensional communication composite.