Particle Grading and Anisotropy Control of Ceramic Cores Formed by Digital Light Processing

LI Xin; LI Jie; WANG Ke; XU Xiqing; SHI Zhenmei; NIU Shuxin; JIAO Qi

doi:10.16080/j.issn1671-833x.2025.03.014

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Particle Grading and Anisotropy Control of Ceramic Cores Formed by Digital Light Processing

更新时间：2025-10-30

- Particle Grading and Anisotropy Control of Ceramic Cores Formed by Digital Light Processing
- Aeronautical Manufacturing Technology Vol. 68, Issue 3, Pages: 14-20(2025)
- 作者机构：
  
  1. 中国航发北京航空材料研究院先进高温结构材料重点实验室,北京,100095
  2. 中航装甲科技有限公司,天津,300399
  3. 长安大学材料学院,西安,710061
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2025.03.014
  CLC：
- Published：2025
- 稿件说明：
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李鑫，李杰，王珂，许西庆，石振梅，牛书鑫，焦琦. 数字光处理成形陶瓷型芯的颗粒级配及各向异性调控[J]. 航空制造技术, 2025, 68(3): 14-20.

LI Xin, LI Jie, WANG Ke, XU Xiqing, SHI Zhenmei, NIU Shuxin, JIAO Qi. Particle Grading and Anisotropy Control of Ceramic Cores Formed by Digital Light Processing[J]. Aeronautical Manufacturing Technology, 2025, 68(3): 14-20.
李鑫，李杰，王珂，许西庆，石振梅，牛书鑫，焦琦. 数字光处理成形陶瓷型芯的颗粒级配及各向异性调控[J]. 航空制造技术, 2025, 68(3): 14-20. DOI： 10.16080/j.issn1671-833x.2025.03.014.

LI Xin, LI Jie, WANG Ke, XU Xiqing, SHI Zhenmei, NIU Shuxin, JIAO Qi. Particle Grading and Anisotropy Control of Ceramic Cores Formed by Digital Light Processing[J]. Aeronautical Manufacturing Technology, 2025, 68(3): 14-20. DOI： 10.16080/j.issn1671-833x.2025.03.014.

摘要

3D打印技术是一种制备复杂形状陶瓷型芯的理想途径，但其逐层成型的特点导致陶瓷型芯在微观结构和性能方面存在显著的各向异性。采用数字光处理成形制备了硅基陶瓷型芯，通过颗粒级配调节微观结构和性能的各向异性。当粗粉与细粉的质量比（颗粒级配）为8∶2时，陶瓷浆料表现出良好的流动性和稳定性，陶瓷型芯层间间隙基本消失，表现出均匀的微观结构，表面粗糙度为2.9 μm，在X、Y、Z三维方向上的收缩率分别为3.15%、3.08% 和3.07%，表明不均匀收缩得到缓解。陶瓷型芯的层间强度明显低于层内强度，随着颗粒级配由6∶4 变为8∶2，层间与层内强度比值由0.40 增至0.62，表明力学性能各向异性得到缓解。研究表明，通过颗粒级配可有效控制3D打印陶瓷型芯的结构/ 性能各向异性，为高性能陶瓷型芯的制备提供了新的技术途径。

Abstract

3D printing is an ideal technology to prepare complex-shaped ceramic cores

however

due to the layerby-layer molding of 3D printing

the as-prepared ceramic cores exhibit significant anisotropy in microstructure and properties. Silica-based ceramic cores were prepared using digital light processing

and anisotropy in microstructure and properties was adjusted through particle grading. When the mass ratio (particle grading) of coarse powder to fine powder is 8∶ 2

the ceramic slurry exhibits good fluidity and stability

and interlayer gap of the ceramic core almost disappears

exhibiting uniform microstructure with surface roughness of 2.9 μm. The shrinkage rates in X

Z three-dimensional directions are 3.15%

3.08%

and 3.07%

indicating that the inhomogeneous shrinkage is alleviated. Interlayer strength is significantly lower than intralayer strength of ceramic cores. As particle grading changes from 6∶4 to 8∶2

the ratio of interlayer to intralayer strength increases from 0.40 to 0.62

indicating that the anisotropy of mechanical properties is alleviated. It is demonstrated that the structural and property anisotropy of 3D printed ceramic cores can be effectively controlled by particle grading

which provides a new technology to fabricating high-performance ceramic cores.

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Related Institution

Shien-Ming Wu School of Intelligent Engineering, South China University of Technology

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Key Laboratory of Intelligent Manufacturing Technology for Large Complex Thin-Walled Components in the Aerospace Industry of the Mechanical Engineering

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