G
Gilvan Barroso
Researcher at University of Bayreuth
Publications - 15
Citations - 390
Gilvan Barroso is an academic researcher from University of Bayreuth. The author has contributed to research in topics: Coating & Ceramic. The author has an hindex of 8, co-authored 14 publications receiving 238 citations.
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Polymeric and ceramic silicon-based coatings – a review
TL;DR: The main aspects of the use of silicon polymers for coatings are elucidated in this paper, and the advantages and disadvantages of these materials, and the processing methods developed are discussed.
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A novel organic-inorganic PMMA/polysilazane hybrid polymer for corrosion protection
T. Coan,Gilvan Barroso,Ricardo Antonio Francisco Machado,F.S. de Souza,Almir Spinelli,G. Motz +5 more
TL;DR: In this paper, a mixture of PMMA and polysilazane HTT1800 was synthesized via solution polymerization and deposited on metallic substrates by dip-coating, and the structure and the thermal stability of the developed hybrid polymers were studied by Fourier transform infrared (FTIR) spectroscopy and thermogravimetric analysis.
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Low thermal conductivity coating system for application up to 1000 °C by simple PDC processing with active and passive fillers
TL;DR: In this paper, a novel thermal barrier coating system based on polymer-derived ceramics, applied by simple lacquer methods is reported, which consists of a polysilazane (PHPS) bond-coat and an insulating layer formed by the combination of passive (YSZ) and active (ZrSi2) fillers with a (organo)silazanes (Durazane 1800).
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Preparation of PMMA/hBN composite coatings for metal surface protection
TL;DR: In this paper, composite materials of PMMA and hBN were developed and deposited on steel by dip-coating, and the influence of the amount of hBN in the PMMA coating regarding corrosion resistance was investigated.
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Polysilazane-Based Coatings with Anti-Adherent Properties for Easy Release of Plastics and Composites from Metal Molds
TL;DR: In this article, the anti-adherence properties of two chemically different polysilazanes (crosslinked Durazane 1800 (HTTS)/perhydropolysilazane (PHPS)) are investigated by using a phenolic resin via pull-off adhesion, which is slightly reduced from 13MPa for uncoated aluminum to less than 10 MPa for HTTS coated substrates.