Journal of Materials Research and Technology (Nov 2023)

Improving the accuracy of stereolithography 3D printed Al2O3 microcomponents by adding photoabsorber: Fundamentals and experiments

  • Jingyi Chen,
  • Ruyue Su,
  • Xiaofei Zhai,
  • Yaru Wang,
  • Xiong Gao,
  • Xueqin Zhang,
  • Yanpeng Zhang,
  • Yan Zhang,
  • Sheng Liu,
  • Rujie He

Journal volume & issue
Vol. 27
pp. 757 – 766

Abstract

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Ceramic microcomponents have a wide range of applications in microfluidic, sensors, etc. Stereolithography 3D printing technology provided a shortcut for the preparation of this small-size and complex component. With the development of device miniaturization, the existing stereolithography forms cannot meet the demand. To prepare smaller components, it is necessary to decrease the slice thickness (Cs). But during the stereolithography 3D printing, ceramic is usually easy to over-cure, leading to the key issue in the stereolithography of ceramic microcomponents: the mismatching between the curing thickness (Cp) and the slice thickness (Cs). To solve the problem above, this paper started from the stereolithography mechanism of the ceramic/resin slurry and adjusted the matching relationship between Cp and Cs theoretically by adding a photoabsorber. Then, from the experiments, the influence of different content of photoabsorber (carbon black) on curing thickness, printing accuracy, and sintering accuracy, were studied. Al2O3 ceramic microcomponents that met the design requirements were thus prepared. These results would help in the development of stereolithography 3D printing of ceramic microcomponents.

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