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Microporous 3D printing product, and preparation method and application thereof

A 3D printing and microporous technology, applied in the field of 3D printing, can solve the problems such as the degradable rate needs to be further improved, can not meet the diversified needs, and the product variety and functions are limited, so as to achieve excellent anti-corrosion, deodorization, fresh-keeping and purification effects, and improve stability. and anti-oxidation, the effect of expanding the application development space

Inactive Publication Date: 2016-08-24
JIANGSU HAOYU ELECTRONICS TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, on the one hand, the smell of this material is very uncomfortable when printing. On the other hand, the printed products have limited functions and cannot meet the diverse needs of the market.
[0004] With the development of science and technology and social progress, 3D printing products are not limited to industrial design, architecture, engineering and construction (AEC), automotive, aerospace, dental and medical industries, education, geographic information systems, civil engineering, guns and other fields, but also It has begun to enter people's daily life to make some living utensils or decorations, but the current application in life is still reflected in the use of the shape of the printed product, as well as the artistic design formed by its color and shape, etc. , there is still a lot of room for the application and development of 3D printing, and at the same time, the degradability, toughness and strength need to be further improved

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] Example 1: A microporous 3D printing product made of the following components in parts by weight: 120 parts of ABS; 2 parts of light diffusing agent; 2 parts of initiator; 10 parts of crosslinking agent; 10 parts of coupling agent ; 10 parts of oyster shell powder; 2 parts of bentonite; 1 part of medical stone powder; 1 part of walnut shell superfine powder; 1 part of limonene; 0.2 parts of additives.

[0027] Wherein the light diffusing agent is a silicone light diffusing agent.

[0028] Wherein the initiator comprises the following components in parts by weight: 1 part of photoinitiator; 1 part of thermal initiator.

[0029] Wherein the coupling agent is a titanate coupling agent.

[0030] The auxiliary agent comprises the following components in parts by weight: 0.1 part of plasticizer; 0.1 part of toughening agent.

[0031] The preparation method comprises the following steps: 1) melting ABS particles at high temperature, adding an initiator and a crosslinking age...

Embodiment 2

[0033] Example 2: A microporous 3D printing product made of the following components in parts by weight: 140 parts of ABS; 8 parts of light diffusing agent; 8 parts of initiator; 20 parts of crosslinking agent; 20 parts of coupling agent ; 30 parts of oyster shell powder; 8 parts of bentonite; 4 parts of medical stone powder; 4 parts of walnut shell superfine powder; 6 parts of limonene; 0.4 parts of additives.

[0034] Wherein the light diffusing agent is a silicone light diffusing agent.

[0035] Wherein the initiator comprises the following components in parts by weight: 3 parts of photoinitiator; 5 parts of thermal initiator.

[0036] Wherein the coupling agent is a silane coupling agent.

[0037] Wherein the auxiliary agent comprises the following components in parts by weight: 0.2 part of plasticizer; 0.2 part of toughening agent.

[0038] The preparation method comprises the following steps: 1) melting ABS particles at high temperature, adding an initiator and a cross...

Embodiment 3

[0039] Example 3: A microporous 3D printing product made of the following components in parts by weight: 130 parts of ABS; 5 parts of light diffusing agent; 5 parts of initiator; 15 parts of crosslinking agent; 15 parts of coupling agent ; 20 parts of oyster shell powder; 5 parts of bentonite; 3 parts of medical stone powder; 2 parts of walnut shell superfine powder; 5 parts of nano-silver ions; 4 parts of limonene;

[0040] Wherein the light diffusing agent is a silicone light diffusing agent.

[0041] Wherein the initiator comprises the following components in parts by weight: 5 parts of thermal initiator.

[0042]The coupling agent is a mixture of titanate coupling agent and silane coupling agent in a ratio of 3:2.

[0043] Wherein the auxiliary agent comprises the following components in parts by weight: 0.15 part of plasticizer; 0.15 part of toughening agent.

[0044] The preparation method comprises the following steps: 1) melting the ABS particles at high temperature,...

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Abstract

The invention discloses a microporous 3D printing product, and a preparation method and application thereof. The 3D printing material is prepared from the following components in parts by weight: 120-140 parts of ABS (acrylonitrile-butadiene-styrene), 2-8 parts of photodiffusion agent, 2-8 parts of initiator, 10-20 parts of crosslinking agent, 10-20 parts of coupling agent, 10-30 parts of oyster shell powder, 2-8 parts of bentonite, 1-4 parts of medical stone powder, 1-4 parts of nutshell ultramicropowder, 1-6 parts of limonene and 0.2-0.4 part of aid. The invention provides a 3D printing product new species for the users to select and use according to needs, thereby greatly widening the application and development space of the 3D printing product mainly prepared from ABS in the aspect of 3D printing, and having obvious meanings.

Description

technical field [0001] The invention belongs to the field of 3D printing, and in particular relates to a 3D printing product and its preparation method and application. Background technique [0002] With the rapid development of 3D printing technology, the concept of 3D printing is gradually known to the public. FDM technology uses ABS, polycarbonate (PC), polyphenylsulfone (PPSF), PLA and other thermoplastic materials to be heated and extruded into semi-molten filaments, which are deposited on a layer-by-layer basis and constructed directly from 3D CAD data prototype. This technique is commonly used in prototyping, assembly, functional testing and conceptual design. In addition, FDM technology can be applied to proofing and rapid manufacturing. [0003] ABS material, ABS, formerly known as acrylonitrile-butadiene-styrene copolymer, is the main core of household fused deposition (FDM) type wire. In terms of the nature of the material, ABS plastic is fairly easy to print ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L55/02C08K13/02C08K3/34C08K5/01B33Y70/00
CPCC08L55/02B33Y70/00C08K2201/011C08K2201/014C08L2201/08
Inventor 魏宏辉许守荣魏天浩魏妗羽
Owner JIANGSU HAOYU ELECTRONICS TECH
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