CN1817511A - Gel mould-injecting formation of porous titanium with various shape - Google Patents

Abstract

An injection moulding method for preparing porous Ti with complex shape includes such steps as dissolving acrylamide and N,N-methyleno biacrylamide as cross-linking agent in solvent, adding Ti powder to make them be suspended in the solution, adding trigger and catalyst, injecting the slurry into non-porous mould, cross-linking and polymerizing to become 3D recticular polymer gel while in-situ adhering the particles, and solidifying. Its advantages are high porosity, high rate of open pores and uniform distribution of pores.

Description

A kind of gel-casting method of complicated shape POROUS TITANIUM

Technical field

The invention belongs to the powder metallurgy forming technical field, a kind of gel-casting method of complicated shape POROUS TITANIUM particularly is provided.

Background technology

In the metal polyporous material, POROUS TITANIUM is widely used in civilian departments such as military project departments such as Aeronautics and Astronautics and chemical industry, metallurgy, light industry, medicine with unique excellent properties of titanium such as its low-density, high specific strength, high corrosion-resistant and excellent biological compatibility.The preparation method of POROUS TITANIUM comprises that powder metallurgic method, fibre metallurgy method, slurry foaming, self propagating high temperature are synthetic etc.Wherein, the production technology that powder metallurgic method prepares POROUS TITANIUM is simple, cost is low and can access the uniform POROUS TITANIUM of institutional framework, but is difficult to obtain finished pieces with complex shapes, and porosity is lower; The fibre metallurgy method can be produced high-quality porous metal fiber material, but product size is restricted, and cost is higher; The slurry foaming can obtain Higher porosity, and shortcoming is restive bubble size, so be difficult to obtain uniform porous material; Self propagating high temperature is synthetic to be to develop very fast material preparation new technology over nearly 20 years, can be used to prepare intermetallic compound and composite, but adopts the self propagating high temperature synthesis technique can only prepare the limited porous titanium alloy goods of composition.

Gel casting forming (gelcasting) is invented in early 1990s by people such as U.S. Oak Ridge National Laboratory professors M.A.Janney, is a kind of complicated shape pottery or the metal parts near-net-shape method that receives much attention in recent years.Its advantage is the easy-formation complicated shape, and the molding blank component is even, density is even, intensity is high, but does not need special degreasing process production large scale product and product porosity and aperture controlled.

Summary of the invention

The object of the present invention is to provide a kind of gel-casting method of complicated shape POROUS TITANIUM, adopt gel injection molding and forming technology to realize the production of big powder metallurgy POROUS TITANIUM of the complicated shape base substrate that high porosity, high opening rate, hole macroscopic view are evenly distributed.

The present invention is with acrylamide organic monomer and N, N-methylene-bisacrylamide crosslinking agent dissolves in solvent and is mixed with certain density premixed liquid, titanium valve is suspended in the concentrate suspension of wherein making low viscosity, high solid loading, add after initator and the catalyst, this concentrate suspension slurry is injected non-porous mould, under certain temperature condition, organic polymer is monomer crosslinked to aggregate into three-dimensional network shaped polymer gel, and makes powder particle original position bonding and solidify to form base substrate.Concrete technology is as follows:

1) with acrylamide and N, the N-methylene-bisacrylamide is with mass ratio (2～200): 1 mixes, with the water-soluble solution of making 1～50 quality % stable homogeneous of this mixture;

2) with above-mentioned solution and titanium valve, dispersant; Wherein titanium valve is 10～50 volume % of mixture; The dispersant that uses any as in polyacrylamide, polyacrylic acid, the polymethyl acid amide, dispersant dosage accounts for 0.02～1.0% of metal powder material quality;

3) with the second step gained compound ball milling 8～48 hours;

4) above-mentioned slurry room temperature froth in vacuum is 10～30 minutes;

5) slurry is injected mould, mold materials is non-hole material glass or metal, rubber, plastics etc.; Heating mould to 40～80 ℃ afterwards, the demoulding after about 30～120 minutes, room temperature vacuum drying 48～72 hours obtains the POROUS TITANIUM base substrate.

The technology of the present invention is compared with traditional POROUS TITANIUM forming technique, and major advantage is as follows:

1) it is even and solid concentration is adjustable to prepare the concentrate suspension composition; Base substrate after drying, originally the position that exists of moisture becomes intrinsic hole, so base substrate can obtain the POROUS TITANIUM that high porosity, high opening rate, hole macroscopic view are evenly distributed behind sintering;

2) do not need complex device and mould, do not need special degreasing process, can realize low cost, the high efficiency production of complicated shape POROUS TITANIUM;

3) blank strength reaches more than the 30MPa, can carry out machining.

The specific embodiment

Embodiment 1

The titanium valve raw material is commercially available 50～100 μ m titanium valves; Acrylamide is that the Tianjin City Chemical Agent Research Institute produces, and is white fine crystals; N, N-methylene-bisacrylamide are that Tianjin section close europeanized reagent development centre produces, and are white powder.

With 15 gram acrylamides, 1 gram N, the N-methylene-bisacrylamide is dissolved in 100 ml waters, add 450 gram titanium valves and 5 gram polyacrylic acid dispersant, ball milling final vacuum de-bubble in 48 hours 30 minutes, obtain the slurry of solid volume fraction 50%, after injecting metal die mould is moved into 80 ℃ of insulating box insulations 120 minutes, demoulding final vacuum can obtain gel casting forming POROUS TITANIUM part base substrate in dry 72 hours; Base substrate obtains the POROUS TITANIUM part behind sintering.

Gel casting forming POROUS TITANIUM part porosity by this technology preparation is 43.2%, and percent opening is 91.0%.

Embodiment 2

The titanium valve raw material is commercially available 50～100 μ m titanium valves; Acrylamide is that the Tianjin City Chemical Agent Research Institute produces, and is white fine crystals; N, N-methylene-bisacrylamide are that Tianjin section close europeanized reagent development centre produces, and are white powder.

With 20 gram acrylamides, 6 gram N, the N-methylene-bisacrylamide dissolves in 100 ml waters makes solution, adds 300 gram titanium valves and 10 gram polyacrylamide dispersants, and ball milling final vacuum de-bubble in 24 hours 20 minutes makes solid volume fraction and be 40% slurry.The gained slurry is injected glass mold, and 60 ℃ of insulations 120 minutes, slurry was cured as base substrate in the mould, and demoulding final vacuum can obtain gel casting forming POROUS TITANIUM part base substrate in dry 48 hours; Base substrate obtains the POROUS TITANIUM part behind sintering.

Gel casting forming POROUS TITANIUM part porosity by this technology preparation is 54.8%, and percent opening is 90.3%.

Claims (2)

1, a kind of gel-casting method of complicated shape POROUS TITANIUM is characterized in that:

A, with acrylamide and N, the N-methylene-bisacrylamide is with mass ratio 2～200: 1 mixes, with the water-soluble premixed liquid of making 1～50 quality % stable homogeneous of this mixture;

B, with above-mentioned solution and titanium valve, dispersant; Wherein titanium valve is 10～50 volume % of mixture; The dispersant that uses any as in polyacrylamide, polyacrylic acid, the polymethyl acid amide, dispersant dosage accounts for 0.02～1.0% of metal powder material quality;

C, with the second step gained compound ball milling 8～48 hours;

D, above-mentioned slurry room temperature froth in vacuum 10～30 minutes;

E, slurry is injected mould, heating mould to 40～80 ℃, the demoulding after about 30～120 minutes, room temperature vacuum drying 48～72 hours obtains the POROUS TITANIUM base substrate.

2, in accordance with the method for claim 1, it is characterized in that: described mold materials is non-hole material glass or metal, rubber, plastics.