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Rapid forming device and system for ultra-high molecular weight polymer and control method of system

An ultra-high molecular weight, molding device technology, applied in the directions of manufacturing auxiliary devices, additive manufacturing, manufacturing tools, etc., can solve the problems of narrow processing temperature range, limited application occasions, and poor fluidity of ultra-high molecular weight polymers, and achieve printing and molding structures. Flexible, adaptable to a wide temperature range, avoiding the effect of poor viscosity

Pending Publication Date: 2020-12-01
INST OF CHEM CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In addition, the fluidity of the polymer in the molten state is extremely poor, the relative position between the particles changes little, there are a lot of pores inside the molded part, and the density is low, which seriously affects the molding quality
[0006] Second, the processing temperature range of ultra-high molecular weight polymers is narrow, and it is more sensitive to laser energy density and sintering position temperature
[0009] Although the above-mentioned prior art has proposed a rapid prototyping method for ultra-high molecular weight polymers, there are still many problems in practical applications. For rapid prototyping, the laser of this method can only provide a temperature difference of 20-30 degrees, and cannot print materials with a large temperature difference. At the same time, the way of powder laying wastes too much material, and in most cases, new and old powders are mixed, which is harmful to molding The quality of the workpiece is affected. In addition, the method of laser sintering powder bed has strict requirements on the ambient temperature, and it needs to be printed in a greenhouse or a closed space, and the method of powder laying cannot print closed structures, and the application occasions are limited.

Method used

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  • Rapid forming device and system for ultra-high molecular weight polymer and control method of system
  • Rapid forming device and system for ultra-high molecular weight polymer and control method of system
  • Rapid forming device and system for ultra-high molecular weight polymer and control method of system

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Experimental program
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Effect test

Embodiment 1

[0098] Such as Figure 1 to Figure 5 As shown, a rapid prototyping device 1 for ultra-high molecular weight polymers described in this embodiment includes a silo 2, and a chamber for holding ultra-high molecular weight polymers is arranged inside; a nozzle 3 is arranged on the material The bottom of the bin 2; the feeding rod 4 is set to be able to extend into or out from the top of the bin 2, and is used to extrude the ultra-high molecular weight polymer in the molten state from the nozzle 3 out of the bin 2. The heating module 5 forms a heating area where the temperature gradually increases from the top of the silo 2 to the side of the spray head 3 at the bottom.

[0099] Wherein, the heating area is sequentially divided into a first heating area 501, a second heating area 502 and a third heating area 503 from the top of the silo 2 to the bottom side; The ultra-high molecular weight polymer is in the original state when it is put into the silo 2; the ultra-high molecular we...

Embodiment 2

[0101] Such as Figure 1 to Figure 5 As shown, this embodiment is based on the above-mentioned embodiment 1. In the rapid prototyping device 1 for ultra-high molecular weight polymers described in this embodiment, the heating range of the first heating zone 501 is the same as that of the second heating zone 501. The ratio of the heating range sum of the heating zone 502 and the third heating zone 503 is between 1:3 and 1:1; the heating range ratio of the second heating zone 502 and the third heating zone 503 is between Between 1:5 and 1:1.

Embodiment 3

[0103] Such as Figure 1 to Figure 5 As shown, this embodiment is based on the above-mentioned embodiment 1 or embodiment 2. The heating module 5 in this embodiment is a heating wire that cooperates with the silo 2; the heating temperature of the heating module 5 is from 100°C to Between 450°C.

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Abstract

The invention discloses a rapid forming device and system for an ultra-high molecular weight polymer and a control method of the system. The rapid forming device comprises a stock bin, a spray head and a rolling assembly. The spray head is arranged at the bottom of the stock bin. The rolling assembly can compact the ultra-high molecular weight polymer extruded by the spray head; the rolling assembly comprises a pressing roller and a fixing seat, and the pressing roller rolls on the surface of the ultra-high molecular weight polymer extruded by the spray head to compact the ultra-high molecularweight polymer; the fixing seat is used for fixing the pressing roller; and the fixing seat can move in the height direction of the stock bin. According to the rapid forming device and system for theultra-high molecular weight polymer and the control method of the system, the ultra-high molecular weight polymer is heated to a molten state and is subjected to extrusion molding, the he rapid forming device and system for the ultra-high molecular weight polymer and the control method of the system have the advantages of large adaptive temperature interval span, strong environmental adaptability, material saving and flexible and variable forming structure, and in addition, the problem of expansion deformation of the ultra-high molecular weight polymer in the molten state is avoided by arranging the heating area in gradient change.

Description

technical field [0001] The invention belongs to the technical field of polymer material molding, and in particular relates to a rapid prototyping device, system and control method for ultra-high molecular weight polymers. Background technique [0002] 3D printing is a popular concept and a kind of rapid prototyping technology, which was born in the late 1980s. This technology integrates mechanical engineering, material engineering, numerical control technology, laser technology and other technologies, and uses the material accumulation method to manufacture the prototype of parts. The principle is to first model with computer-aided design (CAD) or computer animation modeling software to form a digital model, then decompose the three-dimensional model into two-dimensional cross-sections layer by layer, and accumulate and solidify the printing materials layer by layer through the software and numerical control system. Create physical products. The mainstream methods include ...

Claims

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Application Information

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IPC IPC(8): B29C64/118B29C64/20B29C64/295B29C64/321B29C64/386B29C64/245B33Y30/00B33Y40/00B33Y50/00
CPCB33Y30/00B33Y40/00B33Y50/00B29C64/118B29C64/20B29C64/245B29C64/295B29C64/321B29C64/386
Inventor 马永梅马远远武炎向前张京楠叶钢郑鲲曹新宇
Owner INST OF CHEM CHINESE ACAD OF SCI