Wax-type 3D material and its preparation method and application

A molding material and 3D technology, applied in the field of 3D printing, can solve the problems of easy plugging, high volume shrinkage, large shrinkage, etc., and achieve the effect of cost reduction and broad application prospects.

Active Publication Date: 2022-06-17
GUANGZHOU DEXIN WAX PROD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] At present, there are not many wax materials used in this kind of technology. In terms of molding materials, the purple wax launched by 3D systems in the United States is expensive, has a high volume shrinkage rate (up to 2.2%), and is relatively brittle, which brings a lot of inconvenience to transportation. , and there are a few domestic manufacturers researching and developing this wax molding material, but there are often unfavorable phenomena such as brittleness, nozzle blockage, molding soft collapse and casting lost wax with ash residue
In terms of supporting materials, the white wax launched by 3D systems in the United States is expensive, and the material has low rigidity, large penetration (up to 1.5dmm), and large shrinkage rate (up to 2%). There are also a few domestic manufacturers targeting this wax. Research and development of type support materials, but there are often phenomena such as plugging and not easy to remove
[0006] Chinese patent CN106118082A discloses a 3D printing machine prepared from paraffin wax, beeswax, epoxy resin, curing agent, viscosity modifier, toughening polymer, high hardness polymer, filling material, dye and phase transfer agent. Molding material, but the material has the following disadvantages: ①The material is added with epoxy resin, high hardness polymer, and the filling material has poor compatibility with wax, and contains a large amount of high molecular polymer, which is difficult to volatilize and decompose, and has poor wax loss performance. Poor; ②The crystallization of the material is rough, resulting in a rough surface of the printed workpiece
[0007] Chinese patent CN106366672A discloses a 3D printing structural material prepared from hydrocarbon wax, basic wax, wax, low molecular weight polyethylene or a combination thereof plus optimized additives as raw materials, but the workpiece printed by this material is relatively Brittle, easily brittle and damaged during transportation
[0008] Chinese patent CN107936582A discloses a 3D printing molding wax prepared from hard wax, soft wax, tackifier, nucleating agent, filler, surfactant, dispersant, antioxidant and toner. , but the material added with monodisperse polystyrene microspheres is only in a dispersed state in the material, and has a high softening point, which is easy to aggregate and clog in the printing nozzle at 65-85 °C
[0009] Chinese patent CN105504836A discloses a wax prepared from paraffin wax, viscosity modifier, stabilizer, tough polymer, plasticizer, high hardness polymer, low shrinkage resin, filler material, dye and phase transfer agent. Type support materials, although the penetration is reduced to a certain extent and the toughness of the material is improved, but the tough polymers and high hardness polymers added in it contain a large amount of high molecular polymers, which are insoluble in water and lower alcohol solutions. It brings great difficulty to the post-cleaning to remove the support material
[0010] Chinese patent CN107556675A discloses a water-soluble support material prepared from polyvinyl alcohol, plasticizer, stabilizer, heat stabilizer, flow modifier and melt bonding enhancer, which can effectively solve the problem of bonding The bad problem is that the support material can be dissolved and removed by immersion in normal temperature water, but this support material can only be used in FDM 3D printers. If it is used in MJP 3D printers, it is prone to plugging problems, and the support material has a relatively high melting point. High, it will cause some damage to the molding material

Method used

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  • Wax-type 3D material and its preparation method and application
  • Wax-type 3D material and its preparation method and application
  • Wax-type 3D material and its preparation method and application

Examples

Experimental program
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preparation example Construction

[0065] In one of the embodiments, the preparation method of the refined paraffin comprises the following steps:

[0066] Using paraffin wax with a melting point of 60°C to 70°C and an oil content of less than 2.0% as a raw material, carry out primary distillation at 240°C to 250°C and a vacuum of 150Pa to 300Pa, and collect the residue;

[0067] The residue is subjected to secondary distillation under the conditions of 250°C to 260°C and a vacuum of 50Pa to 100Pa, and the evaporated product is collected.

[0068] Using low-cost paraffin as raw material, it is refined and purified to reduce the content of components with a melting point below 65 °C and a melting point above 68 °C, and the carbon distribution and melting range of the refined product become narrower, which is beneficial to molding materials It is rapidly cooled from a flowing liquid to a solid state, and is harder than ordinary paraffin, giving the molding material a strong rigidity. Avoid too high melting point...

Embodiment 1

[0101] This embodiment provides a molding material in a wax-type 3D material and a preparation method thereof.

[0102] (1) The molding material in the wax-up 3D material provided in this embodiment is prepared from the following raw materials by mass percentage:

[0103]

[0104] The preparation method of described refined paraffin is as follows:

[0105] Using paraffin wax with a melting point of 60.8 °C and an oil content of 1.8% as raw material, heating and melting, and transporting it to a first-stage molecular distillation device. By controlling the temperature of 240 °C and the vacuum degree of 150Pa, the low-component substances, water and air are evaporated. The evaporated material is sent to the secondary molecular distillation device, and the evaporated material is collected by controlling the temperature of 250 ° C and the vacuum degree of 50 Pa, which is the refined paraffin, wherein the hydrocarbon compounds with carbon atoms of 28 to 32 account for the refine...

Embodiment 2

[0111] This embodiment provides a molding material in a wax-type 3D material and a preparation method thereof.

[0112] (1) The molding material in the wax-up 3D material provided in this embodiment is prepared from the following raw materials by mass percentage:

[0113]

[0114] The preparation method of described refined paraffin is as follows:

[0115] Using paraffin wax with a melting point of 64.9 °C and an oil content of 1.0% as raw material, heating and melting, and transporting it to a first-stage molecular distillation device. By controlling the temperature of 250 °C and the vacuum degree of 300Pa, the low-component substances, water and air are evaporated. The evaporated material is sent to the secondary molecular distillation device, and the evaporated material is collected by controlling the temperature of 260 ° C and the vacuum degree of 100 Pa, which is the refined paraffin, wherein the hydrocarbon compounds with carbon atoms of 28 to 32 account for the refin...

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Abstract

The invention relates to a wax-type 3D material and a preparation method and application thereof. The wax-type 3D material is characterized in that it includes a molding material and a supporting material; the molding material is prepared from raw materials including the following mass percentages: 60% to 80% refined paraffin; 5% to 12% micro Crystal wax; 8% to 15% of tackifier 1; 3.5% to 15% of toughening agent 1; 1% to 5% of filler; in the refined paraffin wax, hydrocarbons with 28 to 32 carbon atoms account for 1% of the refined paraffin wax The molar percentage is 92%-96%; the supporting material is prepared from raw materials including the following mass percentages: 60%-80% silicone-modified polyethylene glycol; 15%-30% tackifier 2; 2%-10% toughening agent 2; the toughening agent 2 is selected from at least one of inulin, agar and chitosan. The molding material has moderate penetration, low volume shrinkage, low linear shrinkage, good toughness, no nozzle blockage during printing, and no soft collapse in molding. The support material has low penetration, low volume shrinkage, good alcohol solubility, and is suitable for molding. The material is non-damaging and easy to remove later.

Description

technical field [0001] The invention relates to the technical field of 3D printing, in particular to a wax-type 3D material and a preparation method and application thereof. Background technique [0002] Compared with traditional technology, 3D printing technology has the advantages of saving time and cost, fast customization, designing highly complex structural parts, no need to open molds, and repeated sample research. Therefore, 3D printing technology has gradually been widely used. In jewelry processing, dental denture processing, aerospace and other high-precision casting fields. [0003] At present, a variety of materials and 3D printing technologies have been applied in these fields, such as stereolithography (Stereo lithography Appearance, SLA), Selective Laser Sintering (SLS), Digital Light Processing (Digital Light Processing) , DLP) and multi-jet printing (MultiJet Printing, MJP) and other 3D printing technologies are used in plastic, metal, wax and other materia...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C08L91/06C08L71/02C08L5/00C08L93/00B33Y70/10
CPCC08L91/06B33Y70/10C08L71/02C08L2205/025C08L2205/035C08L2205/03C08L5/00C08L93/00
Inventor 黄家龙范智勇范德贤
Owner GUANGZHOU DEXIN WAX PROD
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