Design, Manufacturing, and Application Exploration of Direct Ink Writing 3D Printed Sensors

黎茂扬; 于培师; 朱指南; 赵宇翔; 陶银; 张鑫; 徐稳; 赵军华

doi:10.16080/j.issn1671-833x.2025.21.088

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Design, Manufacturing, and Application Exploration of Direct Ink Writing 3D Printed Sensors

更新时间：2026-03-27

- Design, Manufacturing, and Application Exploration of Direct Ink Writing 3D Printed Sensors
- Aeronautical Manufacturing Technology Issue 21, (2025)
- 作者机构：
  
  1. 江南大学机械工程学院江苏省食品先进制造装备技术重点实验室,无锡,214122
  2. 江苏省微纳增减材制造工程研究中心,无锡,214122
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2025.21.088
  CLC：
- Published：2025
- 稿件说明：
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黎茂扬, 于培师, 朱指南, et al. Design, Manufacturing, and Application Exploration of Direct Ink Writing 3D Printed Sensors[J]. Aeronautical Manufacturing Technology, 2025, (21).
DOI：

黎茂扬, 于培师, 朱指南, et al. Design, Manufacturing, and Application Exploration of Direct Ink Writing 3D Printed Sensors[J]. Aeronautical Manufacturing Technology, 2025, (21). DOI： 10.16080/j.issn1671-833x.2025.21.088.

摘要

直书写（Direct ink writing，DIW）3D 打印传感器凭借其设计灵活、制造精度高等优势，在航空航天的结构健康监测方面有着极高的应用潜力。本文综述了DIW 传感器在设计、制造与应用方面的最新研究进展。首先，系统性地梳理了DIW 传感器的设计突破，包括传感器多层复合结构的理论设计、DIW 传感器阵列的优化设计、嵌入式传感器的集成设计以及多功能传感器的解耦设计；在制造工艺方面，重点介绍了通过工艺参数优化实现传感器的可控高精度制造，以及开发多轴联动装备实现复杂曲面的高精度共形打印；在应用层面，展示了DIW 传感器在航空航天结构健康监测、建筑振动监测、人体运动捕捉、软体机器人闭环控制等领域的成功案例。最后，探讨了DIW 传感器目前面临的问题和挑战，并给出了未来可能的发展方向。DIW 技术的优异材料兼容性和曲面共形能力，使其有望在未来成为保障飞行安全和延长装备寿命的关键技术之一。

Abstract

Direct ink writing (DIW) 3D-printed sensors exhibit significant potential in aerospace structural health monitoring due to their design flexibility and high manufacturing precision. This paper reviews recent advances in the design

fabrication

and application of DIW sensors. First

we systematically summarize key breakthroughs in sensor design

including theoretical approaches for multilayer composite structures

optimized layouts for sensor arrays

integrated designs for embedded sensors

and decoupling strategies for multifunctional sensors. Regarding fabrication

we highlight the importance of process parameter optimization for controllable high-precision manufacturing

as well as the development of multi-axis printing systems for conformal deposition on complex curved surfaces. In terms of applications

successful implementations are demonstrated in aerospace structural monitoring

building vibration detection

human motion capture

and closed-loop control of soft robotics. Finally

we discuss current challenges and propose future research directions. Owing to its exceptional material compatibility and conformal printing capabilities

DIW technology is poised to become a critical tool for enhancing flight safety and extending equipment service life.

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