低氧阻聚巯基-烯烃光聚合体系在近红外墨水直写3D打印中的应用

胡鹏; 潘越; 徐航; 缪佳涛; 刘仁

doi:10.14028/j.cnki.1003-3726.2023.10.007

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低氧阻聚巯基-烯烃光聚合体系在近红外墨水直写3D打印中的应用

研究论文 | 更新时间：2023-09-19

- 低氧阻聚巯基-烯烃光聚合体系在近红外墨水直写3D打印中的应用
- Low Oxygen Inhibition Thiol-ene Photopolymerization System for Near-infrared Ink Direct Writing 3D Printing
- 高分子通报 2023年36卷第10期页码：1312-1320
- 作者机构：
  
  江南大学化学与材料工程学院，无锡　214122
- 作者简介：
  
  * 刘仁，E-mail:liuren@jiangnan.edu.cn
- 基金信息：
- DOI：10.14028/j.cnki.1003-3726.2023.10.007
  中图分类号：
- 纸质出版日期：2023-10-20，
  
  收稿日期：2023-02-13，
  
  修回日期：2023-03-03，
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胡鹏, 潘越, 徐航, 缪佳涛, 刘仁. 低氧阻聚巯基-烯烃光聚合体系在近红外墨水直写3D打印中的应用[J]. 高分子通报, 2023,36(10):1312-1320.

HU Peng, PAN Yue, XU Hang, MIAO Jia-tao, LIU Ren. Low Oxygen Inhibition Thiol-ene Photopolymerization System for Near-infrared Ink Direct Writing 3D Printing[J]. Polymer Bulletin, 2023,36(10):1312-1320.
胡鹏, 潘越, 徐航, 缪佳涛, 刘仁. 低氧阻聚巯基-烯烃光聚合体系在近红外墨水直写3D打印中的应用[J]. 高分子通报, 2023,36(10):1312-1320. DOI： 10.14028/j.cnki.1003-3726.2023.10.007.

HU Peng, PAN Yue, XU Hang, MIAO Jia-tao, LIU Ren. Low Oxygen Inhibition Thiol-ene Photopolymerization System for Near-infrared Ink Direct Writing 3D Printing[J]. Polymer Bulletin, 2023,36(10):1312-1320. DOI： 10.14028/j.cnki.1003-3726.2023.10.007.

摘要

上转换粒子辅助近红外光聚合在3D打印领域展现出良好的应用前景。然而，上转化粒子的荧光效率较低，使得打印材料的表面容易遭受严重的氧阻聚作用，降低了打印速度与打印精度。本文在3D打印墨水的设计中引入巯基-烯烃光聚合单体克服了这一困难。通过优化打印墨水配方，发现以二级硫醇和烯丙基单体为光固化基质，添加4%触变剂的墨水表现出最佳的热稳定性和打印性能。利用最佳墨水配方进行近红外3D 打印，成功实现了黑色晶格结构和无支撑螺旋结构25 mm/s (1 mm 直径喷嘴)的快速打印。打印材料的力学性能与模具成型材料的力学性能相当，拉伸强度可达55 MPa。

Abstract

Upconversion particle-assisted near-infrared photopolymerization (UCAP) has shown promising applications in 3D printing. However

due to the low fluorescence efficiency of upconversion particles

the surface of the printed material suffers from severe oxygen inhibition effects. It reduces the printing speed and printing accuracy. In this study

we overcome this difficulty by introducing thiol-ene photopolymerization monomers into the ink design. By optimizing the printing ink formulation

it was found that the ink with secondary thiol-olefin monomer as the light-curing substrate and 4% thixotropic agent addition exhibited the best thermal stability and printing performance. By using this optimal ink formulation for 3D printing

fast printing of black lattice structures and unsupported spiral structures at 25 mm/s printing speed (1 mm diameter nozzle) was successfully achieved. The mechanical properties of the printed material were comparable to those of the molded material

with a tensile strength of 55 MPa.

关键词

近红外光聚合上转换粒子墨水直写巯基-烯烃光聚合

Keywords

Near-infrared photopolymerizationUpconversion particleDirect ink writingThiol-ene photopolymerization

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