CN110156375A - A kind of photocuring 3D printing aluminium oxide ceramics slurry and preparation method - Google Patents

Abstract

The present invention relates to a kind of photocuring 3D printing aluminium oxide ceramics slurry and preparation methods, and aluminium oxide ceramics slurry is by photosensitive resin, dispersing agent and alumina powder.Preparation method: dispersing agent is added dropwise in photosensitive resin and is stirred evenly, then alumina powder is gradually added into photosensitive resin；(2) obtained mixture is stirred evenly, defoaming agent is added in ball milling after 2~6 hours, UV absorbers are added in ball milling again after 2~6 hours, after mixing evenly, ultrasonic vibration 0.5~6 hour, then proceedes to ball milling 2~6 hours；(3) by the mixture vacuumize process 0.5~6 hour after ball milling to get arriving aluminium oxide ceramics slurry.Aluminium oxide ceramics slurry preparation process of the invention is easy, efficient, stability is excellent, reduces scattering phenomenon of the ultraviolet light in ceramic slurry, improves printing precision, suitable for high-precision, the photocuring 3D printing ceramic technology field of complex parts.

Description

A kind of photocuring 3D printing aluminium oxide ceramics slurry and preparation method

Technical field

The invention belongs to increases material manufacturing technology field, it is related to a kind of photocuring 3D printing aluminium oxide ceramics slurry and preparation side Method.

Background technique

Charles Hull invented photocuring 3D printing technique in 1986, for print resin material (Hull, C., 1986.Apparatus for production of three-dimensional objects by Stereolithography.USPatent 06,638,905.), Michelle L.Griffith is in nineteen ninety-five by photocuring 3D Printing technique is applied to ceramic field (Griffith M L, Halloran J W.Freeform fabrication of ceramics via stereolithography[J].Journal of the American Ceramic Society, 1996,79 (10): 2601-2608.), since technique changes the subversiveness that traditional mode of production manufacturing mode produces, cause It attractes attention in the world.

Since ceramic material brittleness is big, the production and processing ceramic part that structure is complicated, precision is high is more difficult.Photocuring 3D printing ceramic technology passes through the mode being layering and is especially advantageous for the production ceramic part that structure is complicated, precision is high.

Photocuring 3D printing ceramic slurry is the basis of photocuring 3D printing ceramic technology, is only prepared for suitable ceramics Slurry could push the development and application of this technology.Xi'an platinum Li Tezengcai technical concern Co., Ltd proposes a kind of high The preparation method (Chinese patent, patent No. CN108033777A) of the alumina slurry of solid phase low-viscosity.Guangdong University of Technology mentions A kind of method (Chinese patent, patent No. CN106673627A) of photocuring 3D printing aluminium oxide toughening ceramic is gone out.Central China section Skill university proposes a kind of preparation method (Chinese patent, patent No. CN109485433A) of ceramic slurry that stability is good.Often Kind method prepares resulting ceramic slurry system difference, suitable for different production fields.

Photocuring slurry system is various, and the application of slurry and printing gained ceramic performance are different, and that there are slurries is easy Sedimentation prints the problems such as difficulty is larger, success rate is lower.

Summary of the invention

Technical problems to be solved

In order to avoid the shortcomings of the prior art, the present invention propose a kind of photocuring 3D printing aluminium oxide ceramics slurry and Preparation method, preparation process simplicity, the preparation method of photocuring 3D printing alumina slurry efficient, stability is excellent, is fitted It is used to prepare high-precision, complicated ceramic part.

Technical solution

A kind of photocuring 3D printing aluminium oxide ceramics slurry, it is characterised in that including dispersing agent, photosensitive resin and aluminium oxide Powder, in which: dispersing agent mass percentage is 2%~25%, and alumina powder mass percentage is 40%~85%, remaining Amount is photosensitive resin；The photosensitive resin is acrylic resin；The sum of the mass percent of each component is in the composition 100%.

The acrylic resin are as follows: trimethylolpropane trimethacrylate, 1,6 hexanediol diacrylate, metering system One of sour hydroxyl ethyl ester is a variety of.

The dispersing agent are as follows: one of polyethylene glycol, ethyl acetate, n-octyl alcohol, Decanol, oleic acid, vinylacetate Or the mixture of a variety of compositions.

A method of preparing the photocuring 3D printing aluminium oxide ceramics slurry, it is characterised in that steps are as follows:

Step 1: dispersing agent being added dropwise in photosensitive resin and stirred evenly, alumina powder is then gradually added into light Mixture is obtained in quick resin, wherein dispersing agent mass percentage is 2%~25%, and alumina powder mass percentage is 40%~85%, surplus is photosensitive resin；

Step 2: defoaming agent will be added after mixture ball milling 2~6 hours, ultraviolet light is added after ball milling 2~6 hours again and inhales It receives agent after mixing evenly, ultrasonic vibration 0.5~6 hour, then proceedes to ball milling 2~6 hours；

Opposite mixture, the mass percent of the defoaming agent of addition are 0.5%~10%；The quality hundred of UV absorbers Divide than being 0.5%~10%,

Step 3: by the mixture vacuumize process 0.5~6 hour after ball milling to get arriving aluminium oxide ceramics slurry.

The defoaming agent are as follows: neopelex, butyl acrylate, polyoxyethyl propyl polyoxyethanyl glycerin ether, sweet dew The mixture of one of alcohol, stearic acid, dimethyl siloxane or a variety of compositions.

The UV absorbers are one of UV-234, UV-326, UV-328, light stabilizer HPT or a variety of compositions Mixture.

Beneficial effect

A kind of photocuring 3D printing aluminium oxide ceramics slurry proposed by the present invention and preparation method, aluminium oxide ceramics slurry by Photosensitive resin, dispersing agent, alumina powder, defoaming agent and UV absorbers composition.Specifically the preparation method is as follows: (1) will be divided Powder is added dropwise in photosensitive resin and stirs evenly, and then alumina powder is gradually added into photosensitive resin, wherein dispersing Agent mass percentage is 2%~25%, and alumina powder mass percentage is 40%~85%；(2) mixing that will be obtained Object stirs evenly, and defoaming agent is added in ball milling after 2~6 hours, and wherein the mass percentage of defoaming agent is 0.5%~10%, then UV absorbers are added after 2~6 hours in secondary ball milling, and wherein the mass percentage of UV absorbers is 0.5%~10%, After mixing evenly, ultrasonic vibration 0.5~6 hour then proceedes to ball milling 2~6 hours；(3) mixture after ball milling is vacuumized 0.5~6 hour is handled to get aluminium oxide ceramics slurry is arrived.Aluminium oxide ceramics slurry preparation process of the invention is easy, efficiently, Stability is excellent, reduces scattering phenomenon of the ultraviolet light in ceramic slurry, improves printing precision, be suitable for high-precision, The photocuring 3D printing ceramic technology field of complex parts.

Beneficial effects of the present invention have the following:

1, aluminium oxide ceramics slurry preparation process of the invention is easy, efficient, stability is excellent, reduces ultraviolet light and exists Scattering phenomenon in ceramic slurry, improves printing precision, suitable for high-precision, the photocuring 3D printing ceramics skill of complex parts Art field.

2, photocuring 3D printing aluminum oxide technology is conducive to the molding of high precision, structure is complicated part, in ceramic core, life Object medicine aluminium oxide joint prosthesis, thick film integrated circuit, Precision Machining etc. have a good application prospect.Through the invention Photocuring 3D printing ceramic slurry preparation method, the ceramic product of available excellent surface quality beats for photocuring 3D The application of print aluminium oxide ceramics technology provides the foundation.

Detailed description of the invention

Fig. 1 is the preparation method flow chart of photocuring 3D printing aluminium oxide ceramics slurry

Fig. 2 is solidification 3D printing aluminium oxide ceramics biscuit pictorial diagram

Specific embodiment

Now in conjunction with embodiment, attached drawing, the invention will be further described:

Based on the present Research of photocuring 3D printing aluminium oxide ceramics technology, the excellent ceramic slurry of processability is this skill The critical issue of art application.

The present invention is carried out light and is consolidated by allotment photosensitive resin, dispersing agent, alumina powder, defoaming agent and UV absorbers Change the preparation of 3D printing aluminium oxide ceramics slurry.Wherein dispersing agent mass percentage is 2%~25%, quality of alumina percentage Content is 40%~85%, and surplus is photosensitive resin.

Dispersing agent is added dropwise in photosensitive resin and is stirred evenly, alumina powder is then gradually added into photosensitive resin In.

Obtained mixture is stirred evenly, defoaming agent is added in ball milling after 2~6 hours, add after ball milling 2~6 hours again Enter UV absorbers, after mixing evenly, ultrasonic vibration 0.5~6 hour, then proceedes to ball milling 2~6 hours.

By the mixture vacuumize process 0.5~6 hour after ball milling to get arriving aluminium oxide ceramics slurry.

Embodiment 1.

Step 1: 10g n-decane is added dropwise in 30g photosensitive resin-acrylic resin and is stirred evenly.Then will 60g alumina powder being added in photosensitive resin-acrylic resin gradually.

Step 2: obtained mixture is stirred evenly, and 2g stearic acid is added after ball milling 3 hours, again after ball milling 3 hours 1g UV absorbers UV-328 is added and ultrasonic vibration 2 hours, then proceedes to ball milling 4 hours after mixing evenly.

Step 3: by mixture vacuumize process 2 hours after ball milling to get aluminium oxide ceramics slurry.Photocuring 3D is beaten It is as shown in Figure 2 to print aluminium oxide ceramics biscuit.

Embodiment 1.

Step 1: 10g n-octyl alcohol is added dropwise in 30g photosensitive resin-acrylic resin and is stirred evenly.Then will 60g alumina powder being added in photosensitive resin-acrylic resin gradually.

Step 2: obtained mixture is stirred evenly, and 2g mannitol is added after ball milling 3 hours, again after ball milling 3 hours 1g UV absorbers UV-234 is added and ultrasonic vibration 2 hours, then proceedes to ball milling 4 hours after mixing evenly.

Step 3: by mixture vacuumize process 2 hours after ball milling to get aluminium oxide ceramics slurry.Photocuring 3D is beaten It is as shown in Figure 2 to print aluminium oxide ceramics biscuit.

Embodiment 1.

Step 1: 10g ethyl acetate is added dropwise in 30g photosensitive resin-acrylic resin and is stirred evenly.Then By 60g alumina powder being added in photosensitive resin gradually.

Step 2: obtained mixture is stirred evenly, and 2g butyl acrylate is added after ball milling 3 hours, ball milling 3 is small again When after be added 1g UV absorbers UV-326 ultrasonic vibration 2 hours, then proceed to ball milling 4 hours after mixing evenly.

Step 3: by mixture vacuumize process 2 hours after ball milling to get aluminium oxide ceramics slurry.Photocuring 3D is beaten It is as shown in Figure 2 to print aluminium oxide ceramics biscuit.

Acrylic resin described in above-described embodiment are as follows: trimethylolpropane trimethacrylate, two propylene of 1,6-HD One of acid esters, hydroxyethyl methacrylate are a variety of.

Claims (6)

1. a kind of photocuring 3D printing aluminium oxide ceramics slurry, it is characterised in that including dispersing agent, photosensitive resin and alumina powder Body, in which: dispersing agent mass percentage is 2%~25%, and alumina powder mass percentage is 40%~85%, surplus For photosensitive resin；The photosensitive resin is acrylic resin；The sum of the mass percent of each component is in the composition 100%.

2. photocuring 3D printing aluminium oxide ceramics slurry according to claim 1, it is characterised in that: the acrylic resin Are as follows: one of trimethylolpropane trimethacrylate, 1,6 hexanediol diacrylate, hydroxyethyl methacrylate are more Kind.

3. photocuring 3D printing aluminium oxide ceramics slurry according to claim 1, it is characterised in that: the dispersing agent are as follows: poly- The mixture of one of ethylene glycol, ethyl acetate, n-octyl alcohol, Decanol, oleic acid, vinylacetate or a variety of compositions.

4. a kind of method for preparing claims 1 or 2 or the 3 photocuring 3D printing aluminium oxide ceramics slurries, it is characterised in that Steps are as follows:

Step 1: dispersing agent being added dropwise in photosensitive resin and stirred evenly, alumina powder is then gradually added into photosensitive tree Mixture is obtained in rouge, wherein dispersing agent mass percentage is 2%~25%, and alumina powder mass percentage is 40% ~85%, surplus is photosensitive resin；

Step 2: defoaming agent will be added after mixture ball milling 2~6 hours, UV absorbers are added after 2~6 hours in ball milling again After mixing evenly, ultrasonic vibration 0.5~6 hour then proceedes to ball milling 2~6 hours；

Opposite mixture, the mass percent of the defoaming agent of addition are 0.5%~10%；The mass percent of UV absorbers It is 0.5%~10%,

Step 3: by the mixture vacuumize process 0.5~6 hour after ball milling to get arriving aluminium oxide ceramics slurry.

5. according to the method described in claim 4, it is characterized by: the defoaming agent are as follows: neopelex, acrylic acid One of butyl ester, polyoxyethyl propyl polyoxyethanyl glycerin ether, mannitol, stearic acid, dimethyl siloxane or a variety of compositions it is mixed Close object.

6. according to the method described in claim 4, it is characterized by: the UV absorbers are UV-234, UV-326, UV- 328, the mixture of one of light stabilizer HPT or a variety of compositions.