增材制造在c波段射频载荷快速成型中的应用

Q3 Physics and Astronomy Instruments Pub Date : 2023-08-01 DOI:10.3390/instruments7030023
Garrett Mathesen, Charlotte Wehner, Julian Merrick, B. Shirley, R. Agustsson, R. Berry, Amirari Diego, E. Nanni
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引用次数: 0

摘要

增材制造是一种多功能技术,有望为复杂的工程问题提供快速和动态的制造。在射频(RF)组件技术中使用增材制造的潜在应用一直在进行研究。在这里,我们提出了一种在直接金属激光烧结机上开发316L不锈钢有效原型负载的方法。利用仿真软件对模型进行了测试,验证了设计的有效性。负载结构由一家在线数字制造公司制造,显示了使用易于获取的工具制造RF结构的可行性。在真空条件下,在c波段频率为5.712 GHz时,产生的负载能够产生−22.8 dB的S11值。在大功率测试中,负载能够终止8.1 MW的峰值功率。讨论包括本方法的未来应用,以及它将如何帮助改进未来加速器概念的实现。
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Utilization of Additive Manufacturing for the Rapid Prototyping of C-Band Radiofrequency Loads
Additive manufacturing is a versatile technique that shows promise in providing quick and dynamic manufacturing for complex engineering problems. Research has been ongoing into the use of additive manufacturing for potential applications in radiofrequency (RF) component technologies. Here, we present a method for developing an effective prototype load produced from 316L stainless steel on a direct metal laser sintering machine. The model was tested using simulation software to verify the validity of the design. The load structure was manufactured by an online digital manufacturing company, showing the viability of using easily accessible tools to manufacture RF structures. The produced load was able to produce an S11 value of −22.8 dB at a C-band frequency of 5.712 GHz while under a vacuum. In a high-power test, the load was able to terminate a peak power of 8.1 MW. The discussion includes future applications of the present method and how it will help to improve the implementation of future accelerator concepts.
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来源期刊
Instruments
Instruments Physics and Astronomy-Instrumentation
CiteScore
2.60
自引率
0.00%
发文量
70
审稿时长
11 weeks
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