Austin Lassell scite author profile

Custom ceramic structures possess significant potentials in many applications such as dentistry and aerospace where extreme environments are present. Specifically, highly customized geometries with adequate performance are needed for various dental prostheses applications. This paper demonstrates the development of process and post-process parameters for a dental porcelain ceramic material using binder jetting additive manufacturing (AM). Various process parameters such as binder amount, drying power level, drying time and powder spread speed were studied experimentally for their effect on geometrical and mechanical characteristics of green parts. In addition, the effects of sintering and printing parameters on the qualities of the densified ceramic structures were also investigated experimentally. The results provide insights into the process-property relationships for the binder jetting AM process, and some of the challenges of the process that need to be further characterized for the successful adoption of the binder jetting technology in high quality ceramic fabrications are discussed.

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Optimal Process Parameters for 3D Printing of Porcelain Structures

Miyanaji

Zhang

Lassell

et al. 2016

Procedia Manufacturing

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A novel method to fabricate TiAl intermetallic alloy 3D parts using additive manufacturing

et al. 2017

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The electropolishing of electron beam melting, additively manufactured TI6AL4V titanium : relevance, process parameters and surface finish.

Lassell¹

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Surface Treatment of Ti6Al4V Parts Made By Powder Bed Fusion Additive Manufacturing Processes using Electropolishing

Li¹,

Gu²,

Lassell³

2014

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Austin Lassell

Process Development of Porcelain Ceramic Material with Binder Jetting Process for Dental Applications

Optimal Process Parameters for 3D Printing of Porcelain Structures

A novel method to fabricate TiAl intermetallic alloy 3D parts using additive manufacturing

The electropolishing of electron beam melting, additively manufactured TI6AL4V titanium : relevance, process parameters and surface finish.

Surface Treatment of Ti6Al4V Parts Made By Powder Bed Fusion Additive Manufacturing Processes using Electropolishing

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