Effect of the particle size and the debinding process on the density of alumina ceramics fabricated by 3D printing based on stereolithography

In this study, Al2O3 ceramics were printed by stereolithography from particles with different particle size distributions, which are the micro-sized Al2O3, nano-sized Al2O3, and a mixture of both. The influence of the particle size and the debinding method on the density and morphology of the sinter...

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Published inCeramics international Vol. 42; no. 15; pp. 17290 - 17294
Main Authors Wu, Haidong, Cheng, Yanling, Liu, Wei, He, Rongxuan, Zhou, Maopeng, Wu, Shanghua, Song, Xuan, Chen, Yong
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.11.2016
Subjects
Al2O3
Debinding
Stereolithography
Debinding
Al2O3
Stereolithography
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Abstract In this study, Al2O3 ceramics were printed by stereolithography from particles with different particle size distributions, which are the micro-sized Al2O3, nano-sized Al2O3, and a mixture of both. The influence of the particle size and the debinding method on the density and morphology of the sintered bodies were investigated. The density of the samples containing both micro-sized and nano-sized alumina particles is highest among the three samples. Furthermore, the samples subjected to the vacuum debinding showed a higher density compared with the samples subjected to the traditional thermal debinding. The results suggest that the combination of a powder with a bimodal particle size distribution and the vacuum debinding process offers an effective way to print 3D ceramics with a good performance through stereolithography.
AbstractList In this study, Al2O3 ceramics were printed by stereolithography from particles with different particle size distributions, which are the micro-sized Al2O3, nano-sized Al2O3, and a mixture of both. The influence of the particle size and the debinding method on the density and morphology of the sintered bodies were investigated. The density of the samples containing both micro-sized and nano-sized alumina particles is highest among the three samples. Furthermore, the samples subjected to the vacuum debinding showed a higher density compared with the samples subjected to the traditional thermal debinding. The results suggest that the combination of a powder with a bimodal particle size distribution and the vacuum debinding process offers an effective way to print 3D ceramics with a good performance through stereolithography.
Author Wu, Shanghua
Song, Xuan
Liu, Wei
Zhou, Maopeng
Cheng, Yanling
He, Rongxuan
Wu, Haidong
Chen, Yong
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  surname: Chen
  fullname: Chen, Yong
  organization: Epstein Department of Industrial and Systems Engineering, University of Southern California, Los Angeles, CA, USA
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Snippet In this study, Al2O3 ceramics were printed by stereolithography from particles with different particle size distributions, which are the micro-sized Al2O3,...
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SubjectTerms Al2O3
Debinding
Stereolithography
Title Effect of the particle size and the debinding process on the density of alumina ceramics fabricated by 3D printing based on stereolithography
URI https://dx.doi.org/10.1016/j.ceramint.2016.08.024
Volume 42
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