3D printing and additive manufacturing. 2024 Oct 22;11(5):e1877-e1886. doi: 10.1089/3dp.2023.0079 Q32.12025

Fabrication of Piezoelectric Structures with High Porosity by Digital Light Processing

采用数字光处理技术制造高孔隙率压电结构翻译改进

Dongcai Zhang¹, Yaodong Yang¹, Xuhan Lv¹, Wei-Feng Rao¹

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¹ School of Mechanical Engineering (Shandong Institute of Mechanical Design and Research), Qilu University of Technology (Shandong Academy of Sciences), Jinan, China.

DOI: 10.1089/3dp.2023.0079 PMID: 39741542

摘要 Ai翻译

Digital light processing is a recently developed solution to fabricate complex structured piezoelectric devices. To obtain a high-performance device, the slurry configuration, model slicing, and heat treatment methods during the printing should be carefully determined. In this article, 200 nm particle size barium titanate powders with an optimized solid content of 80% (mass fraction) were used to configure the slurry with higher printing efficiency. The sl... ...点击完成人机验证后继续浏览

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期刊名：3d printing and additive manufacturing

缩写：3D PRINT ADDIT MANUF

ISSN：2329-7662

e-ISSN：2329-7670

IF/分区：2.1/Q3

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Fabrication of Piezoelectric Structures with High Porosity by Digital Light Processing

采用数字光处理技术制造高孔隙率压电结构翻译改进

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Fabrication of Piezoelectric Structures with High Porosity by Digital Light Processing

采用数字光处理技术制造高孔隙率压电结构 翻译改进

Accuracy of zirconia crown manufactured using stereolithography and digital light processing

利用光固化立体成型术和数字光处理技术制造的氧化锆冠的精度研究

Multi-material digital light processing bioprinting of hydrogel-based microfluidic chips

基于多材料数字光处理的水凝胶微流控芯片生物打印技术

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数字光处理水凝胶的研究进展

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采用数字光处理技术制造高孔隙率压电结构翻译改进