CORROSION AND OXIDATION BEHAVIOR OF POLYMER DERIVED CERAMIC COATINGS WITH PASSIVE GLASS FILLERS ON AISI441 STAINLESS STEEL

Polymer derived ceramic (PDC) polysilazane-based double layer composite coatings on steel substrates consisting of a PDC bond-coat, and a PDC-based top-coat containing ceramic passive (ZrO₂) and active (ZrSi₂) fillers, as well as a specially tailored passive glass filler with high melting temperatur...

Full description

Bibliographic Details
Main Authors: M. Parchoviansky, I. Petrikova, Barroso G.S., Svancarek P., Galuskova D., Motz G., Galusek D.
Format: Article
Language:English
Published: University of Chemistry and Technology, Prague 2018-03-01
Series:Ceramics-Silikáty
Subjects:
Online Access: http://www.ceramics-silikaty.cz/index.php?page=cs_detail_doi&id=1208
id doaj-ae2a352e73b142e59f290dd065bd9d14
record_format Article
spelling doaj-ae2a352e73b142e59f290dd065bd9d142020-11-24T23:42:33ZengUniversity of Chemistry and Technology, PragueCeramics-Silikáty0862-54681804-58472018-03-0162214615710.13168/cs.2018.000610.13168/cs.2018.0006.20180807121352CORROSION AND OXIDATION BEHAVIOR OF POLYMER DERIVED CERAMIC COATINGS WITH PASSIVE GLASS FILLERS ON AISI441 STAINLESS STEELM. Parchoviansky0I. Petrikova1Barroso G.S.Svancarek P.2Galuskova D.3Motz G.Galusek D.4 Vitrum Laugaricio - Joint Glass Center of the IIC SAS, TnU AD, and FCHFT STU, Studentska 2, 911 50 Trencin, Slovakia Vitrum Laugaricio - Joint Glass Center of the IIC SAS, TnU AD, and FCHFT STU, Studentska 2, 911 50 Trencin, Slovakia Vitrum Laugaricio - Joint Glass Center of the IIC SAS, TnU AD, and FCHFT STU, Studentska 2, 911 50 Trencin, Slovakia Vitrum Laugaricio - Joint Glass Center of the IIC SAS, TnU AD, and FCHFT STU, Studentska 2, 911 50 Trencin, Slovakia Vitrum Laugaricio - Joint Glass Center of the IIC SAS, TnU AD, and FCHFT STU, Studentska 2, 911 50 Trencin, Slovakia Polymer derived ceramic (PDC) polysilazane-based double layer composite coatings on steel substrates consisting of a PDC bond-coat, and a PDC-based top-coat containing ceramic passive (ZrO₂) and active (ZrSi₂) fillers, as well as a specially tailored passive glass filler with high melting temperature were developed. The corrosion and oxidation behaviour of the ferritic stainless steel AISI 441 with and without the PDC coating system was evaluated. SEM examination revealed the composite coatings were not dense but contained small closed pores with a diameter up to 100 nm. Cracks and occasionally also delamination were detected. The static corrosion tests under hydrothermal conditions at the temperature of 200 °C resulted in partial oxidation of the uncoated steel substrate, whereas the coated sample was protected by the PDC coating. No oxidation of the top coat was detected after the static corrosion test. The high temperature oxidation behaviour in a flow-through oxygen atmosphere was investigated at the temperatures of 900 °C, 1000 °C and 1100 °C. X-ray diffraction confirmed extensive corrosion of the uncoated AISI441 stainless steel accompanied by formation of a Cr₂O₃, TiO₂ and a (Mn, Cr)₃O₄ spinel containing layer of corrosion products. Beneficial effect of the PDC coating was observed at the temperature of 900 °C, demonstrated by marked reduction of the weight gain of coated steel after 196 h of exposure to flowing oxygen. At higher temperatures the protective action of the PDC coat was not observed, and a thick layer of corrosion products was formed at the steel/coating interface. http://www.ceramics-silikaty.cz/index.php?page=cs_detail_doi&id=1208 PDC ceramics Glass microspheres Hydrothermal corrosion High temperature oxidation
collection DOAJ
language English
format Article
sources DOAJ
author M. Parchoviansky
I. Petrikova
Barroso G.S.
Svancarek P.
Galuskova D.
Motz G.
Galusek D.
spellingShingle M. Parchoviansky
I. Petrikova
Barroso G.S.
Svancarek P.
Galuskova D.
Motz G.
Galusek D.
CORROSION AND OXIDATION BEHAVIOR OF POLYMER DERIVED CERAMIC COATINGS WITH PASSIVE GLASS FILLERS ON AISI441 STAINLESS STEEL
Ceramics-Silikáty
PDC ceramics
Glass microspheres
Hydrothermal corrosion
High temperature oxidation
author_facet M. Parchoviansky
I. Petrikova
Barroso G.S.
Svancarek P.
Galuskova D.
Motz G.
Galusek D.
author_sort M. Parchoviansky
title CORROSION AND OXIDATION BEHAVIOR OF POLYMER DERIVED CERAMIC COATINGS WITH PASSIVE GLASS FILLERS ON AISI441 STAINLESS STEEL
title_short CORROSION AND OXIDATION BEHAVIOR OF POLYMER DERIVED CERAMIC COATINGS WITH PASSIVE GLASS FILLERS ON AISI441 STAINLESS STEEL
title_full CORROSION AND OXIDATION BEHAVIOR OF POLYMER DERIVED CERAMIC COATINGS WITH PASSIVE GLASS FILLERS ON AISI441 STAINLESS STEEL
title_fullStr CORROSION AND OXIDATION BEHAVIOR OF POLYMER DERIVED CERAMIC COATINGS WITH PASSIVE GLASS FILLERS ON AISI441 STAINLESS STEEL
title_full_unstemmed CORROSION AND OXIDATION BEHAVIOR OF POLYMER DERIVED CERAMIC COATINGS WITH PASSIVE GLASS FILLERS ON AISI441 STAINLESS STEEL
title_sort corrosion and oxidation behavior of polymer derived ceramic coatings with passive glass fillers on aisi441 stainless steel
publisher University of Chemistry and Technology, Prague
series Ceramics-Silikáty
issn 0862-5468
1804-5847
publishDate 2018-03-01
description Polymer derived ceramic (PDC) polysilazane-based double layer composite coatings on steel substrates consisting of a PDC bond-coat, and a PDC-based top-coat containing ceramic passive (ZrO₂) and active (ZrSi₂) fillers, as well as a specially tailored passive glass filler with high melting temperature were developed. The corrosion and oxidation behaviour of the ferritic stainless steel AISI 441 with and without the PDC coating system was evaluated. SEM examination revealed the composite coatings were not dense but contained small closed pores with a diameter up to 100 nm. Cracks and occasionally also delamination were detected. The static corrosion tests under hydrothermal conditions at the temperature of 200 °C resulted in partial oxidation of the uncoated steel substrate, whereas the coated sample was protected by the PDC coating. No oxidation of the top coat was detected after the static corrosion test. The high temperature oxidation behaviour in a flow-through oxygen atmosphere was investigated at the temperatures of 900 °C, 1000 °C and 1100 °C. X-ray diffraction confirmed extensive corrosion of the uncoated AISI441 stainless steel accompanied by formation of a Cr₂O₃, TiO₂ and a (Mn, Cr)₃O₄ spinel containing layer of corrosion products. Beneficial effect of the PDC coating was observed at the temperature of 900 °C, demonstrated by marked reduction of the weight gain of coated steel after 196 h of exposure to flowing oxygen. At higher temperatures the protective action of the PDC coat was not observed, and a thick layer of corrosion products was formed at the steel/coating interface.
topic PDC ceramics
Glass microspheres
Hydrothermal corrosion
High temperature oxidation
url http://www.ceramics-silikaty.cz/index.php?page=cs_detail_doi&id=1208
work_keys_str_mv AT mparchoviansky corrosionandoxidationbehaviorofpolymerderivedceramiccoatingswithpassiveglassfillersonaisi441stainlesssteel
AT ipetrikova corrosionandoxidationbehaviorofpolymerderivedceramiccoatingswithpassiveglassfillersonaisi441stainlesssteel
AT barrosogs corrosionandoxidationbehaviorofpolymerderivedceramiccoatingswithpassiveglassfillersonaisi441stainlesssteel
AT svancarekp corrosionandoxidationbehaviorofpolymerderivedceramiccoatingswithpassiveglassfillersonaisi441stainlesssteel
AT galuskovad corrosionandoxidationbehaviorofpolymerderivedceramiccoatingswithpassiveglassfillersonaisi441stainlesssteel
AT motzg corrosionandoxidationbehaviorofpolymerderivedceramiccoatingswithpassiveglassfillersonaisi441stainlesssteel
AT galusekd corrosionandoxidationbehaviorofpolymerderivedceramiccoatingswithpassiveglassfillersonaisi441stainlesssteel
_version_ 1725504093567320064