Login / Signup

3D printing of thermosets with diverse rheological and functional applicabilities.

Yuxuan SunLiu WangYangyang NiHuajian ZhangXiang CuiJiahao LiYinbo ZhuJi LiuShiwu ZhangYong ChenMujun Li
Published in: Nature communications (2023)
Thermosets such as silicone are ubiquitous. However, existing manufacturing of thermosets involves either a prolonged manufacturing cycle (e.g., reaction injection molding), low geometric complexity (e.g., casting), or limited processable materials (e.g., frontal polymerization). Here, we report an in situ dual heating (ISDH) strategy for the rapid 3D printing of thermosets with complex structures and diverse rheological properties by incorporating direct ink writing (DIW) technique and a heating-accelerated in situ gelation mechanism. Enabled by an integrated Joule heater at the printhead, extruded thermosetting inks can quickly cure in situ, allowing for DIW of various thermosets with viscosities spanning five orders of magnitude, printed height over 100 mm, and high resolution of 50 μm. We further demonstrate DIW of a set of heterogenous thermosets using multiple functional materials and present a hybrid printing of a multilayer soft electronic circuit. Our ISDH strategy paves the way for fast manufacturing of thermosets for various emerging fields.
Keyphrases
  • high resolution
  • body mass index
  • physical activity
  • tandem mass spectrometry