An undercutting model of atomic oxygen for multilayer silica/alumina films fabricated by plasma immersion implantation and deposition on polyimide

► The undercutting model of polymer covered with protective film induced by AO was defined. ► The AO erosion mechanism of polyimide has been investigated using a ground-based AO simulator and Monte Carlo model. ► AO erosion predictions at two neighborhood cracks is first studied by Monte Carlo model...

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Veröffentlicht in:Applied surface science 2011-08, Vol.257 (21), p.9158-9163
Hauptverfasser: Huang, Yongxian, Tian, Xiubo, Lv, Shixiong, Yang, Shiqin, Fu, R.K.Y., Chu, Paul K., Leng, Jinsong, Li, Yao
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container_end_page 9163
container_issue 21
container_start_page 9158
container_title Applied surface science
container_volume 257
creator Huang, Yongxian
Tian, Xiubo
Lv, Shixiong
Yang, Shiqin
Fu, R.K.Y.
Chu, Paul K.
Leng, Jinsong
Li, Yao
description ► The undercutting model of polymer covered with protective film induced by AO was defined. ► The AO erosion mechanism of polyimide has been investigated using a ground-based AO simulator and Monte Carlo model. ► AO erosion predictions at two neighborhood cracks is first studied by Monte Carlo model. ► Multilayer silica/alumina films were created by plasma immersion implantation and deposition for protection against AO. Multilayer silica/alumina films were created by plasma immersion implantation and deposition to protect against atomic oxygen (AO) in low earth orbit environment. The AO erosion mechanism of polyimide under multilayer silica/alumina films has been investigated using a ground-based AO simulator and Monte Carlo model. The results demonstrate that protective films are detached and plumped due to AO undercutting, and the exterior silica film is partly detached proven by chemical composition depth profile and erosion patterns. The undercutting model involving collision, diffusion, reaction, gas releasing, and retroaction on films is proposed. Based on the model, scattered impingement has serious erosion, although AO does not directly attack interior polymer. AO erosion predictions at two neighborhood cracks are first studied by Monte Carlo model for various incidence angles of AO. The protective film between cracks hinders the escape of AO, and accelerates the erosion.
doi_str_mv 10.1016/j.apsusc.2011.05.124
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Multilayer silica/alumina films were created by plasma immersion implantation and deposition to protect against atomic oxygen (AO) in low earth orbit environment. The AO erosion mechanism of polyimide under multilayer silica/alumina films has been investigated using a ground-based AO simulator and Monte Carlo model. The results demonstrate that protective films are detached and plumped due to AO undercutting, and the exterior silica film is partly detached proven by chemical composition depth profile and erosion patterns. The undercutting model involving collision, diffusion, reaction, gas releasing, and retroaction on films is proposed. Based on the model, scattered impingement has serious erosion, although AO does not directly attack interior polymer. AO erosion predictions at two neighborhood cracks are first studied by Monte Carlo model for various incidence angles of AO. 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Multilayer silica/alumina films were created by plasma immersion implantation and deposition to protect against atomic oxygen (AO) in low earth orbit environment. The AO erosion mechanism of polyimide under multilayer silica/alumina films has been investigated using a ground-based AO simulator and Monte Carlo model. The results demonstrate that protective films are detached and plumped due to AO undercutting, and the exterior silica film is partly detached proven by chemical composition depth profile and erosion patterns. The undercutting model involving collision, diffusion, reaction, gas releasing, and retroaction on films is proposed. Based on the model, scattered impingement has serious erosion, although AO does not directly attack interior polymer. AO erosion predictions at two neighborhood cracks are first studied by Monte Carlo model for various incidence angles of AO. 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subjects Computer simulation
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science
rheology
Erosion
Exact sciences and technology
Mathematical models
Monte Carlo
Monte Carlo methods
Multilayer thin films
Multilayers
Physics
Plasma immersion
Polymer
Protective
Protective coatings
Silicon dioxide
title An undercutting model of atomic oxygen for multilayer silica/alumina films fabricated by plasma immersion implantation and deposition on polyimide
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