2020 50th European Microwave Conference (EuMC) 2021
DOI: 10.23919/eumc48046.2021.9338007
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Optimization of the conductivity of microwave components printed by inkjet on polymeric substrates by photonic sintering

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Cited by 3 publications
(3 citation statements)
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“…However, once the metal layer is formed on the surface of the film, the internal gases are not easily evaporated, which could cause the film to swell during reflow of the surface metal layer in the second or third light irradiation, as explained in [5]. As seen in [31], this result leads to a small dwelling for samples 2 and 3. In sample 4, we notice that burnt areas are at the level of the metal layer because of the extremely short time between the pulses (T off = 438 μs), which did not allow sufficient cooling time for the metal deposit.…”
Section: Processing Of Aerosol Jet Printed and Oven-dried Samplesmentioning
confidence: 97%
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“…However, once the metal layer is formed on the surface of the film, the internal gases are not easily evaporated, which could cause the film to swell during reflow of the surface metal layer in the second or third light irradiation, as explained in [5]. As seen in [31], this result leads to a small dwelling for samples 2 and 3. In sample 4, we notice that burnt areas are at the level of the metal layer because of the extremely short time between the pulses (T off = 438 μs), which did not allow sufficient cooling time for the metal deposit.…”
Section: Processing Of Aerosol Jet Printed and Oven-dried Samplesmentioning
confidence: 97%
“…This treatment technique saves time and can homogeneously The sintering equipment used in this work is a Xenon X-1100 IPL system that generates precisely controlled light pulses of high intensity. This system is presented in [31] with more details. Notably, the system cannot deliver the same energy for each light pulse.…”
Section: Ipl Sinteringmentioning
confidence: 99%
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