Manufacturing plan and material selection of the mechanical parts of 28-40 GHz diode detector
Liu, Yuming (2024)
Kandidaatintyö
2024
School of Energy Systems, Konetekniikka
Kaikki oikeudet pidätetään.
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi-fe2024052032625
https://urn.fi/URN:NBN:fi-fe2024052032625
Tiivistelmä
This article mainly discusses and studies the manufacturing scheme and material selection of mechanical components of diode detectors used in traffic monitoring radar in the 28-40 GHz frequency band. This paper proposes suitable manufacturing materials and manufacturing methods by studying and analysing the structure, performance requirements and environmental adaptability of broadband diode detectors.
This article uses three research methods: literature review, expert interviews and SolidWorks modelling analysis to conduct a detailed pre-manufacturing simulation and material screening process for the equipment. Through the research of this article, it is found that manufacturing 28-40 GHz diode detectors requires oxygen-free high conductivity copper as the main material, and it is processed by milling. Finally, this article also proposes ideas for possible future research topics.
“The topic of this thesis belongs to the broader research project at LUT University during year 2024. The research project focuses to the DFMA and sustainability analyses of more than 40 different MW and RF components. The results of this thesis will be utilized later to build an overall picture of the DFMA, and sustainability aspects related to MW and RF technology.”
This article uses three research methods: literature review, expert interviews and SolidWorks modelling analysis to conduct a detailed pre-manufacturing simulation and material screening process for the equipment. Through the research of this article, it is found that manufacturing 28-40 GHz diode detectors requires oxygen-free high conductivity copper as the main material, and it is processed by milling. Finally, this article also proposes ideas for possible future research topics.
“The topic of this thesis belongs to the broader research project at LUT University during year 2024. The research project focuses to the DFMA and sustainability analyses of more than 40 different MW and RF components. The results of this thesis will be utilized later to build an overall picture of the DFMA, and sustainability aspects related to MW and RF technology.”