CN103658533B

CN103658533B - A kind of beryllium alumin(i)um alloy ceramic shell mould and preparation method thereof

Info

Publication number: CN103658533B
Application number: CN201310663194.9A
Authority: CN
Inventors: 买学锋; 王战宏; 李峰; 于伟; 张起龙; 赵玉林; 高林; 苏东峰; 邓六良; 刘兆刚
Original assignee: XIBEI INST OF RARE METAL MATERIAL
Current assignee: Northwest rare metal materials research institute Ningxia Co., Ltd.
Priority date: 2013-12-10
Filing date: 2013-12-10
Publication date: 2017-01-04
Anticipated expiration: 2033-12-10
Also published as: CN103658533A

Abstract

The present invention relates to a kind of beryllium alumin(i)um alloy ceramic shell mould and preparation method, this beryllium alumin(i)um alloy ceramic shell mould is made up of surface layer, transition zone and back-up coat, and the calcined oxide aluminium powder that wherein said surface layer uses granularity to be 300～325 mesh is raw material with the aluminum oxide sand that granularity is 80～120 mesh；Transition zone uses granularity to be that in 200～225 purposes, shop powder and granularity are that in 25～36 purposes, shop sand is raw material；Back-up coat uses granularity to be that in 200～225 purposes, shop powder and granularity are that in 10～16 purposes, shop sand is raw material.The raw materials such as the avirulence of employing of the present invention own, the aluminium oxide that price is low, upper shop sand, so it is prepared beryllium alumin(i)um alloy ceramic shell mould avirulence, pollution-free, safe and reliable, there is the advantages such as high temperature resistant, intensity is high, good stability, and owing to the price of raw material is low, being greatly saved cost of material and protection cost, preparation technology is simple, and technological process is short, production cost is low, and the stability of gained beryllium alumin(i)um alloy product and yield rate are high.

Description

A kind of beryllium alumin(i)um alloy ceramic shell mould and preparation method thereof

Technical field

The present invention relates to technical field of nonferrous metal processing, particularly relate to a kind of beryllium alumin(i)um alloy ceramic shell mould and preparation Method.

Background technology

Beryllium alumin(i)um alloy precision-investment casting is a kind of near-net-shape technology, can produce the part of clean shape, reduce material The refining losses such as cutting.At present, in the sector, the ceramic shell mould used by cast is the patent of Bradley Shi Weierman The beryllium oxide formwork of CN1125963A report, its preparation method is to be coated with to hang over by beryllium oxide (BeO) slurry to make on wax-pattern.This The weak point of method is that beryllium oxide toxicity is big, cost is high, and environmental pollution is serious, adds the difficulty of protection.

Summary of the invention

The purpose of the present invention is that and overcomes above-mentioned defect of the prior art, it is provided that a kind of avirulence, pollution-free, technique Simply, production cost is low, and high temperature resistant, intensity is high, the beryllium alumin(i)um alloy ceramic shell mould of good stability；

It is a further object of the present invention to provide the preparation method of above-mentioned beryllium alumin(i)um alloy ceramic shell mould.

Ceramic shell mould as beryllium alumin(i)um alloy hot investment casting, it is necessary to possess；1) high temperature resistant, at beryllium alumin(i)um alloy molten metal Will not feel like jelly during cast fusing；2) intensity is high, will not be split up when beryllium alumin(i)um alloy is poured into a mould；3) ceramic shell mould surface material is not React with beryllium alumin(i)um alloy liquation；4) heat impact strength to be got well；5) when high temperature, dimensional stability to be got well.

For the foregoing reasons, the present invention uses following technical proposals:

A kind of beryllium alumin(i)um alloy ceramic shell mould, it is characterised in that be made up of surface layer, transition zone and back-up coat, wherein said The calcined oxide aluminium powder that surface layer uses granularity to be 300～325 mesh is raw material with the aluminum oxide sand that granularity is 80～120 mesh；Transition Layer uses granularity to be that in 200～225 purposes, shop powder and granularity are that in 25～36 purposes, shop sand is raw material；Back-up coat employing granularity is In 200～225 purposes, shop powder and granularity are that in 10～16 purposes, shop sand is raw material.

The preparation method of above-mentioned beryllium alumin(i)um alloy ceramic shell mould, it is characterised in that its technical process is:

1) wax-pattern is prepared；

2) wax-pattern is immersed in the slurry that calcined oxide aluminium powder and the binding agent being mainly made up of Ludox are mixed into, quiet Only take out after 5～10 seconds, then by sand sprinkling machine, aluminum oxide sand painting is hung over wax pattern surface, under 20 ± 2 DEG C of temperature conditionss certainly Repeat after so air-drying 3～4 hours this process 1～2 times surface layer；

3) surface layer is immersed in the slurry that upper shop powder and the binding agent being mainly made up of Ludox are mixed into, static 5～ Take out after 10 seconds, then by floating sand machine, sand painting in upper shop is hung over its surface, natural air drying 12-under 20 ± 2 DEG C of temperature conditionss Repeat after 24 hours this process 3～4 times transition zone；

4) transition zone is immersed in the slurry that upper shop powder and the binding agent being mainly made up of Ludox are mixed into, static 5 ～take out after 10 seconds, then by floating sand machine, sand painting in upper shop is hung over its surface, natural air drying under 20 ± 2 DEG C of temperature conditionss Repeat after 12-24 hour this process 1～2 times back-up coat；

5) dewax, sinter.

Described Ludox be dioxide-containing silica be 30%, pH be the Ludox of 6～8.

In described surface layer, calcined oxide aluminium powder is 2:1～2:1.5 with the weight proportion of binding agent.

In described transition zone, upper shop powder is 2:1.5～1:1 with the weight proportion of binding agent.

In described back-up coat, upper shop powder is 2:1.5～1:1 with the weight proportion of binding agent.

The described binding agent mainly having Ludox to constitute consists of:

Ludox: 94%～97%,

Defoamer: 0.5%～1%,

Molten humectant: 0.5%～1%,

Pure water: 2%～4%.Wherein defoamer is YQ-C01 type organic silicon defoamer, and it is a kind of surfactant, its Effect is suppression slurry foaming.Molten humectant is the molten humectant of YQ-D01, and it is also a kind of surfactant, and its effect is to improve coating And the being coated with property between wax-pattern.

Described dewaxing temperature controls at 165 ± 5 DEG C.

Described sintering temperature controls in the following manner: 200 DEG C/insulation 1h → 400 DEG C/insulation 1.0h → 600 DEG C/insulation 1.0h → 800 DEG C/insulation 1.0h → 1100 DEG C/1.0h/ is incubated 2h.

The raw materials such as the avirulence of employing of the present invention own, the aluminium oxide that price is low, upper shop sand, so prepared beryllium alumin(i)um alloy By ceramic shell mould avirulence, pollution-free, low to environmental requirement, safe and reliable, have high temperature resistant, intensity is high, good stability etc. is excellent Point, and owing to the price of raw material is low, it is greatly saved cost of material and protection cost.Preparation technology of the present invention is simple, technique stream Journey is short, and production cost is low.Apply beryllium alumin(i)um alloy ceramic shell mould of the present invention can improve stability and the finished product of beryllium alumin(i)um alloy product Rate, produces preferable economic worth.

Detailed description of the invention

Below in conjunction with example, the detailed description of the invention of the present invention is elaborated.

Embodiment 1: a kind of for Be-38%Al alloy precision mold and pattern for casting shell preparation method process:

1, the wax-pattern needed for product is prepared according to existing method.First wax material is preheating in wax injector 65 DEG C～70 DEG C In the range of, then wax material was filled within the time of 15～30 seconds type in metal punching block, after pressurize 30～60 seconds, by molding Wax part takes out in metal punching block and is placed in room temperature pond, carries out dimensional measurement after cooling down 1～2 hour, and each size meets Qualified wax-pattern it is after drawing requirement.

2, mixed slurry:

Binding agent: the Ludox that dioxide-containing silica is 30%, pH is 6～8: 96%,

The organic defoamer of YQ-C01 type: 0.5%,

YQ-D01 type organo wetting agents: 0.5%,

Pure water: 3%.

Surface layer slurry: calcined oxide aluminium powder (granularity is 300～325 mesh) is mixed according to the ratio of 2:1 with above-mentioned binding agent Close, stir standby.

Transition zone slurry: upper shop powder (granularity 200～225 mesh) is mixed according to the ratio of 2:1.5 with above-mentioned binding agent, fills Point stir standby.

Back-up coat slurry: upper shop powder (granularity 200～225 mesh) is mixed according to the ratio of 2:1.5 with above-mentioned binding agent, fills Point stir standby.

3, surface layer is coated with: be immersed in by wax-pattern in above-mentioned surface layer slurry, takes out after static 5～10 seconds, then by drenching sand Aluminum oxide sand (granularity is 80～120 mesh) is coated with and hangs over wax pattern surface by machine, then natural air drying 3 hours under the conditions of 20 ± 2 DEG C. Repeat this process 2 times surface layer, control humidity 60～70%.

4, transition zone is coated with: be immersed in by surface layer in above-mentioned transition zone slurry, takes out, then pass through after static 5～10 seconds Upper shop sand (granularity is 25～36 mesh) is coated with and hangs over its surface, then natural air drying 24 hours under the conditions of 20 ± 2 DEG C by floating sand machine. Repeat this process 3 times transition zone, control humidity 50～60%.

5, back-up coat is coated with: immersed by transition zone in above-mentioned back-up coat slurry, takes out, then pass through after static 5～10 seconds Upper shop sand (granularity is 10～16 mesh) is coated with and hangs over its surface, then natural air drying 24 hours under the conditions of 20 ± 2 DEG C by floating sand machine. Repeat this process 2 times back-up coat；Control humidity 40～50%.

6, according to above-mentioned process conditions: surface layer 2 times, transition zone 3 times, back-up coat 2 times, obtain the pottery of desired thickness and intensity Ceramic former shell；

7, dewaxing: set dewaxing time, pressure according to shell size.Dewaxing temperature is 165 ± 5 DEG C.

8, sintering: strictly to control sintering temperature during sintering formwork: 200 DEG C/insulation 1h → 400 DEG C/insulation 1.0h → 600 DEG C/insulation 1.0h → 800 DEG C/insulation 1.0h → 1100 DEG C/1.0h/ be incubated 2h.Heating, cooling crosses range request uniformly, steadily, temperature Gradient is little avoids shock heating quenching for degree.

9, deposit: after terminating, take out ceramic shell mould, place it under the preferable room temperature environment of ventilation.

Embodiment 2: a kind of for Be-34%Al-4%Ni alloy precision mold and pattern for casting shell preparation method process:

2, mixed slurry:

Binding agent: binding agent: the Ludox that dioxide-containing silica is 30%, pH is 6～8: 97%,

The organic defoamer of YQ-C01 type: 0.5%,

YQ-D01 type organo wetting agents: 0.5%,

Pure water: 2%.

Surface layer slurry: by calcined oxide aluminium powder (granularity is 300～325 mesh) and above-mentioned binding agent according to the ratio of 2:1.5 Mixing, stirs standby.

Transition zone slurry: upper shop powder (granularity 200～225 mesh) is mixed according to the ratio of 1:1 with above-mentioned binding agent, fully Stir standby.

Back-up coat slurry: upper shop powder (granularity 200～225 mesh) is mixed according to the ratio of 1:1 with above-mentioned binding agent, fully Stir standby.

3, surface layer is coated with: be immersed in by wax-pattern in above-mentioned surface layer slurry, takes out after static 5～10 seconds, then by drenching sand Aluminum oxide sand (granularity is 80～120 mesh) is coated with and hangs over wax pattern surface by machine, then natural air drying 4 hours under the conditions of 20 ± 2 DEG C. This process 1 time surface layer, control humidity 60～70%.

4, transition zone is coated with: be immersed in by surface layer in transition zone slurry, takes out, then by floating sand after static 5～10 seconds Upper shop sand (granularity is 25～36 mesh) is coated with and hangs over its surface, then natural air drying 24 hours under the conditions of 20 ± 2 DEG C by machine.Repeat This process 4 times transition zone, control humidity 50～60%.

5, back-up coat is coated with: be immersed in by transition zone in above-mentioned back-up coat slurry, takes out, then lead to after static 5～10 seconds Crossing floating sand machine and upper shop sand (granularity is 10～16 mesh) painting is hung over its surface, then under the conditions of 20 ± 2 DEG C, natural air drying 24 is little Time.Repeat this process 2 times back-up coat；Control humidity 40～50%.

6, according to above-mentioned process conditions: surface layer 1 time, transition zone 4 times, back-up coat 2 times, obtain the pottery of desired thickness and intensity Ceramic former shell；

Embodiment 3: a kind of for Be-34%Al-4%Ni alloy precision mold and pattern for casting shell preparation method process:

2, mixed slurry:

Binding agent: binding agent: the Ludox that dioxide-containing silica is 30%, pH is 6～8: 94%,

The organic defoamer of YQ-C01 type: 1%,

YQ-D01 type organo wetting agents: 1%,

Pure water: 4%.

Surface layer slurry: by calcined oxide aluminium powder (granularity is 300～325 mesh) and above-mentioned binding agent according to the ratio of 2:1.2 Mixing, stirs standby.

Transition zone slurry: upper shop powder (granularity 200～225 mesh) is mixed according to the ratio of 2:1.8 with above-mentioned binding agent, fills Point stir standby.

Back-up coat slurry: upper shop powder (granularity 200～225 mesh) is mixed according to the ratio of 2:1.8 with above-mentioned binding agent, fills Point stir standby.

4, transition zone is coated with: be immersed in by surface layer in above-mentioned transition zone slurry, takes out, then pass through after static 5～10 seconds Upper shop sand (granularity is 25～36 mesh) is coated with and hangs over its surface, then natural air drying 12 hours under the conditions of 20 ± 2 DEG C by floating sand machine. Repeat this process 4 times transition zone, control humidity 50～60%.

5, back-up coat is coated with: be immersed in by transition zone in above-mentioned back-up coat slurry, takes out, then lead to after static 5～10 seconds Crossing floating sand machine and upper shop sand (granularity is 10～16 mesh) painting is hung over its surface, then under the conditions of 20 ± 2 DEG C, natural air drying 12 is little Time.Repeat this process 2 times back-up coat；Control humidity 40～50%.

Claims

1. a beryllium alumin(i)um alloy ceramic shell mould, it is characterised in that be made up of surface layer, transition zone and back-up coat, wherein said The calcined oxide aluminium powder that layer uses granularity to be 300～325 mesh is raw material with the aluminum oxide sand that granularity is 80～120 mesh；Transition zone Using granularity is that in 200～225 purposes, shop powder and granularity are that in 25～36 purposes, shop sand is raw material；Back-up coat employing granularity is In 200～225 purposes, shop powder and granularity are that in 10～16 purposes, shop sand is raw material；

Above-mentioned beryllium alumin(i)um alloy ceramic shell mould uses following processing step to prepare:

1) wax-pattern is prepared；

2) wax-pattern is immersed in the slurry that calcined oxide aluminium powder and the binding agent being mainly made up of Ludox are mixed into, static 5 ～take out after 10 seconds, then by sand sprinkling machine, aluminum oxide sand painting is hung over wax pattern surface, natural wind under 20 ± 2 DEG C of temperature conditionss Repeat after dry 3～4 hours this process 1～2 times surface layer, the wherein weight proportion of calcined oxide aluminium powder and binding agent in surface layer For 2:1～2:1.5；

3) surface layer is immersed in the slurry that upper shop powder and the binding agent being mainly made up of Ludox are mixed into, static 5～10 seconds Rear taking-up, then hangs over its surface by floating sand machine by the painting of upper shop sand, and under 20 ± 2 DEG C of temperature conditionss, natural air drying 12-24 is little Repeat time after this process 3～4 times transition zone, wherein in transition zone the weight proportion of upper shop powder and binding agent be 2:1.5～ 1:1；

4) transition zone is immersed in the slurry that upper shop powder and the binding agent being mainly made up of Ludox are mixed into, static 5～10 Take out after Miao, then by floating sand machine, sand painting in upper shop is hung over its surface, natural air drying 12-24 under 20 ± 2 DEG C of temperature conditionss Repeat after hour this process 1～2 times back-up coat, wherein in back-up coat, the weight proportion of upper shop powder and binding agent is 2:1.5 ～1:1；

5) dewax, sinter.

2. according to the beryllium alumin(i)um alloy ceramic shell mould described in claim 1, it is characterised in that described Ludox is that silicon dioxide contains The Ludox that amount is 30%, pH is 6～8.

3. according to the beryllium alumin(i)um alloy ceramic shell mould described in claim 1, it is characterised in that described be mainly made up of Ludox Binding agent consists of:

Ludox: 94%～97%,

Defoamer: 0.5%～1%,

Molten humectant: 0.5%～1%,

Pure water: 2%～4%.

4. according to the beryllium alumin(i)um alloy ceramic shell mould described in claim 1, it is characterised in that described dewaxing temperature controls 165 ± 5℃。