4D Additive–Subtractive Manufacturing of Shape Memory Ceramics-Reference-Cited by-同舟云学术

4D Additive–Subtractive Manufacturing of Shape Memory Ceramics

Published:2023-07-30 Issue:39 Volume:35 Page:
ISSN:0935-9648
Container-title:Advanced Materials
language:en
Short-container-title:Advanced Materials

Author:

Liu Guo¹²³⁴,Zhang Xiaofeng⁴⁵,Lu Xinya³⁶,Zhao Yan⁴⁷,Zhou Zhifeng³,Xu Jingjun⁸,Yin Jianan⁴,Tang Tao¹,Wang Peiyu⁴,Yi Shenghui¹,Fan Jiafeng⁵,Zhuo Xueshi⁵,Chan Yu Hin³,Wong Wui Leung³,Bian Haidong⁴,Zuo Jun⁸,Dai Yu⁹,Wu Jian⁹,Lu Jian¹²³⁴⁶^ORCID

Affiliation:

1. Centre for Advanced Structural Materials City University of Hong Kong Shenzhen Research Institute Greater Bay Joint Division Shenyang National Laboratory for Materials Science Shenzhen 518057 China

2. CityU‐Shenzhen Futian Research Institute Shenzhen 518045 China

3. Hong Kong Branch of National Precious Metals Material Engineering Research Center City University of Hong Kong Hong Kong 999077 China

4. Department of Mechanical Engineering City University of Hong Kong Hong Kong 999077 China

5. National Engineering Laboratory for Modern Materials Surface Engineering Technology & The Key Lab of Guangdong for Modern Surface Engineering Technology Institute of New Materials Guangdong Academy of Science Guangzhou 510650 China

6. Department of Materials Science and Engineering City University of Hong Kong Hong Kong 999077 China

7. State Key Laboratory of Advanced Design and Manufacturing for Vehicle Body College of Mechanical and Vehicle Engineering Hunan University Changsha 410082 China

8. Shenyang National Laboratory for Materials Science Institute of Metal Research Chinese Academy of Sciences Shenyang 110016 China

9. School of Physics and Materials Nanchang University Nanchang 330031 China

Abstract

AbstractThe development of high‐temperature structural materials, such as ceramics, is limited by their extremely high melting points and the difficulty in building complicated architectures. Four‐dimensional (4D) printing helps enhance the geometrical flexibility of ceramics. However, ceramic 4D printing systems are limited by the separate processes for shape and material transformations, low accuracy of morphing systems, low resolution of ceramic structures, and their time‐intensive nature. Here, a paradigm for a one‐step shape/material transformation, high‐2D/3D/4D‐precision, high‐efficiency, and scalable 4D additive–subtractive manufacturing of shape memory ceramics is developed. Original/reverse and global/local multimode shape memory capabilities are achieved using macroscale SiOC‐based ceramic materials. The uniformly deposited Al2O3‐rich layer on the printed SiOC‐based ceramic lattice structures results in an unusually high flame ablation performance of the complex‐shaped ceramics. The proposed framework is expected to broaden the applications of high‐temperature structural materials in the aerospace, electronics, biomedical, and art fields.

Publisher

Wiley

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/adma.202302108

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