Millisecond flash lamp curing for porosity generation in thin films

Attallah, Ahmed G.; Prucnal, Slawomir; Buttering, Maik; Hirschmann, Eric; Koehler, Nicole; Schulz, Stefan E.; Wagner, Andreas; Liedke, Maciej O.

doi:10.1038/s41598-023-34748-x

Sci Rep

2023

DOI: 10.1038/s41598-023-34748-x

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Millisecond flash lamp curing for porosity generation in thin films

Ahmed G. Attallah,

Slawomir Prucnal,

Maik Buttering

et al.

Abstract: Flash lamp annealing (FLA) with millisecond pulse durations is reported as a novel curing method for pore precursor's degradation in thin films. A case study on the curing of dielectric thin films is presented. FLA-cured films are being investigated by means of positron annihilation spectroscopy (PAS) and Fourier-transform infrared (FTIR) spectroscopy in order to quantify the nm-scale porosity and post-treatment chemistry, respectively. Results from positron annihilation reveal the onset of the formation of po… Show more

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2024

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Rapid, Direct Fabrication of Thermochromic Ceramic Composite Sensors via Flash Lamp Annealing

Özmen,

Somers,

Losego

2024

Adv Eng Mater

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An inorganic, high temperature (∽600°C) thermochromic sensor is synthesized from a chemically bonded ceramic composite. The ceramic composite is composed of thermochromic 10 wt.% chromium‐doped alumina (Cr:Al2O3) powder blended with a low‐reacting temperature (around 250°C) phosphate binder, Al(H2PO4)3, (ADP). It has been reported that Cr‐doped alumina exhibits thermochromism at high temperatures, typically around 500‐600°C. Previously infrared (IR) irradiation has been used to successfully convert ADP to a ceramic aluminum phosphate (AlPO4) phase that can bind ceramic components together. Here, an ultra high‐power (tens of kilowatts per square centimeter) flash lamp annealing (FLA) system is evaluated as an alternative photonic heating process to rapidly transform ADP to this ceramic. While IR lamps require 30 min to fully transform the ADP binder, FLA processes require less than 1 min and provide more dense microstructures, opening opportunities to additively manufacture ceramic components without the need for a post‐processing heating step. Final ceramics exhibit reversible thermochromic behavior, transitioning from pink to dark gray as the temperature increases from 25°C to 600°C. Here, we demonstrate the ability to use this technology to fabricate a temperature warning system for heated objects that are not yet emitting significant visible black‐body radiation.This article is protected by copyright. All rights reserved.

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Rapid, Direct Fabrication of Thermochromic Ceramic Composite Sensors via Flash Lamp Annealing

Özmen,

Somers,

Losego

2024

Adv Eng Mater

View full text Add to dashboard Cite

show abstract

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Millisecond flash lamp curing for porosity generation in thin films

Cited by 1 publication

References 61 publications

Rapid, Direct Fabrication of Thermochromic Ceramic Composite Sensors via Flash Lamp Annealing

Rapid, Direct Fabrication of Thermochromic Ceramic Composite Sensors via Flash Lamp Annealing

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