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Net Shape Manufacturing of Three‐Dimensional SiCN Ceramic Microstructures Using an Isotropic Shrinkage Method by Introducing Shrinkage Guiders
Author(s) -
Lim Tae Woo,
Son Yong,
Yang DongYol,
Pham Tuan Anh,
Kim DongPyo,
Yang ByeongIl,
Lee KwangSup,
Park Sang Hu
Publication year - 2008
Publication title -
international journal of applied ceramic technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.4
H-Index - 57
eISSN - 1744-7402
pISSN - 1546-542X
DOI - 10.1111/j.1744-7402.2008.02234.x
Subject(s) - shrinkage , materials science , ceramic , microscale chemistry , fabrication , microstructure , isotropy , pyrolysis , composite material , chemical engineering , optics , medicine , alternative medicine , mathematics , mathematics education , physics , pathology , engineering
The two‐photon cross‐linking (TPC) process using ceramic precursors is recognized as a unique fabrication means of real three‐dimensional (3D) ceramic microstructures. These structures can be applied to various microscale devices that are used in harsh conditions that demand high strength, high temperature endurance, and good chemical corrosion properties. However, the large shrinkage amount of 3D structures during pyrolysis is a serious limitation to the practical application of these structures; during pyrolysis, asymmetric distortion and shrinkage occur intrinsically. In an attempt to address this, a method is proposed for the precise fabrication of 3D ceramic microstructures that utilize shrinkage guiders to lead to isotropic shrinkage. SiCN ceramic woodpile structures were fabricated to show the efficiency and usefulness of the proposed method. In the results, the woodpiles showed no distortion after pyrolysis.