Study on Surface Roughness of Sidewall When Micro-Milling LF21 Waveguide Slits

Lü, Xiaohong; Hou, Pengrong; Luan, Yihui; Sun, Xudong; Qiao, Jinhui; Zhou, Yu

doi:10.3390/app12115415

Cited by 4 publications

(2 citation statements)

References 14 publications

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“…With the emergence of a growing number of new techniques for fabricating microstrip structures, there are lots of scientific papers that compare and deeply analyze various techniques [4][5][6] . For example, much attention is given to techniques for fabricating textile antennas [7][8][9] , metallization techniques for printed antennas [10][11][12] , additive manufacturing techniques 13 , CNC milling [14][15][16] . However, lithography is still the most widespread manufacturing technique for traditional planar antennas.…”

Section: Introductionmentioning

confidence: 99%

Effects of Different Manufacturing Techniques on the Performance of Planar Antennas

Zemgulyte,

Sadauskas,

Ragulis

et al. 2023

Preprint

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This study investigates antenna performance based on its manufacturing process. Two types of planar antennas are manufactured on FR-4 dielectric using three different techniques: traditional lithography, laser ablation, and the novel SSAIL (selective surface activation by laser) technique. Various characteristics, such as reflection coefficient, gain, half-power beamwidth, and surface conductivity, are measured to compare the results. These findings can provide valuable guidelines for selecting an optimal antenna manufacturing technique. In both types of antennas, the highest gain is achieved using laser ablation, with the slot loaded patch antenna reaching 8.5 dBi and the Yagi-Uda antenna reaching 9.76 dBi. Antennas manufactured using SSAIL technology are notable for their great resolution and usefulness in constructing structures on non-metallized dielectrics.

show abstract

Section: Introductionmentioning

confidence: 99%

Effects of Different Manufacturing Techniques on the Performance of Planar Antennas

Zemgulyte,

Sadauskas,

Ragulis

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

“…With the emergence of a growing number of new techniques for fabricating microstrip structures, many scientific papers compare and deeply analyze various techniques 4 – 6 . For example, much attention is given to techniques for fabricating textile antennas 7 – 9 , metallization techniques for printed antennas 10 – 12 , additive manufacturing techniques 13 , and CNC milling 14 – 16 . However, lithography is still the most widespread manufacturing technique for traditional planar antennas.…”

Section: Introductionmentioning

confidence: 99%

Effects of different manufacturing techniques on the performance of planar antennas

Žemgulytė,

Sadauskas,

Ragulis

et al. 2023

Sci Rep

View full text Add to dashboard Cite

This study investigates antenna performance based on its manufacturing process. Two types of planar antennas are manufactured on FR-4 dielectric using three different techniques: traditional lithography, laser ablation, and the novel SSAIL (selective surface activation by laser) technique. Various characteristics, such as reflection coefficient, gain, half-power beamwidth, and surface conductivity, are measured to compare the results. These findings offer invaluable insights for choosing the most suitable antenna manufacturing technique, particularly since the SSAIL technique has not been previously compared to alternative methods in the context of antenna production. In both types of antennas, the highest gain is achieved using laser ablation, with the slot-loaded patch antenna reaching 8.5 dBi and the Yagi-Uda antenna reaching 9.76 dBi. Antennas manufactured using SSAIL technology are notable for their excellent resolution and usefulness in constructing structures on non-metallized dielectrics.

show abstract

Investigation on surface quality in micro milling of additive manufactured Ti6Al4V titanium alloy

Chen

et al. 2023

Journal of Manufacturing Processes

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Study on Surface Roughness of Sidewall When Micro-Milling LF21 Waveguide Slits

Cited by 4 publications

References 14 publications

Effects of Different Manufacturing Techniques on the Performance of Planar Antennas

Effects of Different Manufacturing Techniques on the Performance of Planar Antennas

Effects of different manufacturing techniques on the performance of planar antennas

Investigation on surface quality in micro milling of additive manufactured Ti6Al4V titanium alloy

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