Additive manufacturing of polymer composite millimeter‐wave components: Recent progress, novel applications, and challenges

IF 4.8 2区 材料科学 Q2 MATERIALS SCIENCE, COMPOSITES
Quanjin Ma, Ke Dong, Feirui Li, Qinyin Jia, Jing Tian, Ming Yu, Yi Xiong
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Abstract

With the advent of 5G/6G for radar and space communication systems, various millimeter‐wave (MMW) components are rapidly innovated for multi‐functional, higher integrated and miniaturized solutions across diverse industries and applications. Polymer composites‐based additive manufacturing (AM), an advanced manufacturing technique, can manufacture MMW components with high fabrication resolution, intricate structural design, adjustable dielectric properties, and functionally gradient distribution characteristics. This paper outlines the state‐of‐the‐art polymer composite MMW components, their design, and manufacturing techniques. An integrated “material‐structure‐manufacturing‐performance” design conceptual framework of polymer composite MMW components is discussed in terms of material design, structure design, and process design. Moreover, multi‐functional polymer composite MMW structures focus on electromagnetic wave absorption and electromagnetic interference (EMI) shielding functions. Moreover, novel applications of MMW polymer composite components enabled by AM on radar/sensing, communication, enclosure, and miscellaneous applications are discussed. Furthermore, future perspectives and current challenges are identified to provide new insights into multi‐functional 3D‐printed MMW products, exploring new possibilities for next‐generation advanced MMW technology.Highlights The 3D‐printed MMW components and additive manufacturing are reviewed. The integrated “material‐structure‐manufacturing‐performance” concept is introduced. 3D‐printed MMW components are discussed on radar, enclosure, and miscellaneous applications. Future perspectives and challenges of 3D‐printed MMW components are addressed.

Abstract Image

聚合物复合毫米波元件的增材制造:最新进展、新型应用和挑战
随着用于雷达和空间通信系统的 5G/6G 时代的到来,各种毫米波(MMW)元件正在迅速创新,以实现不同行业和应用领域的多功能、高集成度和微型化解决方案。基于聚合物复合材料的增材制造(AM)是一种先进的制造技术,可以制造出具有高制造分辨率、复杂结构设计、可调介电性能和功能梯度分布特性的毫米波元件。本文概述了最先进的聚合物复合材料 MMW 组件、其设计和制造技术。本文从材料设计、结构设计和工艺设计三个方面探讨了聚合物复合材料微波元件的 "材料-结构-制造-性能 "一体化设计概念框架。此外,多功能聚合物复合材料 MMW 结构侧重于电磁波吸收和电磁干扰(EMI)屏蔽功能。此外,还讨论了利用 AM 技术实现的 MMW 聚合物复合材料组件在雷达/传感、通信、外壳和其他应用领域的新型应用。此外,还确定了未来前景和当前挑战,为多功能三维打印 MMW 产品提供了新的见解,为下一代先进 MMW 技术探索了新的可能性。介绍了 "材料-结构-制造-性能 "一体化概念。讨论了雷达、外壳和其他应用中的三维打印 MMW 组件。探讨了三维打印微波元件的未来前景和挑战。
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来源期刊
Polymer Composites
Polymer Composites 工程技术-材料科学:复合
CiteScore
7.50
自引率
32.70%
发文量
673
审稿时长
3.1 months
期刊介绍: Polymer Composites is the engineering and scientific journal serving the fields of reinforced plastics and polymer composites including research, production, processing, and applications. PC brings you the details of developments in this rapidly expanding area of technology long before they are commercial realities.
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