METAL-CERAMIC INTERPHASES: MECHANICAL PROPERTIES OF METAL-CERAMIC INTERFACES PRODUCED BY LASER PROCESSING: THEORY AND EXPERIMENT

Th T.M. De Hosson

doi:10.1201/9781003424000-63

METAL-CERAMIC INTERPHASES: MECHANICAL PROPERTIES OF METAL-CERAMIC INTERFACES PRODUCED BY LASER PROCESSING: THEORY AND EXPERIMENT

Th T.M. De Hosson^*

^*Corresponding author voor dit werk

Onderzoeksoutput › Academic › peer review

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This paper concentrates on the mechanical performance of various ceramic coatings of Cr2O3 on steel (SAF2205), as produced by CO2 laser processing. The thickness of the coating that can be applied by laser coating is limited to about 200 μm setting a limit to the maximum strain energy release rate that can be measured in a 4 point flexure test before severe yielding occurs.lt is concluded that a firmly bonded coating of Cr2O3 on steel could be produced by high power laser processing. The the energy release rate was extremely high and delamination occurred by fracture through the coating and partially along the interface, indicating that the interface strength is similar to or higher than the fracture strength of (Fe, Cr)-spinel.

Originele taal-2	English
Titel	Advances in Physical Metallurgy
Uitgeverij	CRC Press
Pagina's	479-486
Aantal pagina's	8
ISBN van elektronische versie	9781000944044
ISBN van geprinte versie	9782884492102
DOI's	https://doi.org/10.1201/9781003424000-63
Status	Published - 1-jan.-2023

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abstract = "This paper concentrates on the mechanical performance of various ceramic coatings of Cr2O3 on steel (SAF2205), as produced by CO2 laser processing. The thickness of the coating that can be applied by laser coating is limited to about 200 μm setting a limit to the maximum strain energy release rate that can be measured in a 4 point flexure test before severe yielding occurs.lt is concluded that a firmly bonded coating of Cr2O3 on steel could be produced by high power laser processing. The the energy release rate was extremely high and delamination occurred by fracture through the coating and partially along the interface, indicating that the interface strength is similar to or higher than the fracture strength of (Fe, Cr)-spinel.",

author = "{De Hosson}, {Th T.M.}",

year = "2023",

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doi = "10.1201/9781003424000-63",

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PY - 2023/1/1

Y1 - 2023/1/1

N2 - This paper concentrates on the mechanical performance of various ceramic coatings of Cr2O3 on steel (SAF2205), as produced by CO2 laser processing. The thickness of the coating that can be applied by laser coating is limited to about 200 μm setting a limit to the maximum strain energy release rate that can be measured in a 4 point flexure test before severe yielding occurs.lt is concluded that a firmly bonded coating of Cr2O3 on steel could be produced by high power laser processing. The the energy release rate was extremely high and delamination occurred by fracture through the coating and partially along the interface, indicating that the interface strength is similar to or higher than the fracture strength of (Fe, Cr)-spinel.

AB - This paper concentrates on the mechanical performance of various ceramic coatings of Cr2O3 on steel (SAF2205), as produced by CO2 laser processing. The thickness of the coating that can be applied by laser coating is limited to about 200 μm setting a limit to the maximum strain energy release rate that can be measured in a 4 point flexure test before severe yielding occurs.lt is concluded that a firmly bonded coating of Cr2O3 on steel could be produced by high power laser processing. The the energy release rate was extremely high and delamination occurred by fracture through the coating and partially along the interface, indicating that the interface strength is similar to or higher than the fracture strength of (Fe, Cr)-spinel.

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METAL-CERAMIC INTERPHASES: MECHANICAL PROPERTIES OF METAL-CERAMIC INTERFACES PRODUCED BY LASER PROCESSING: THEORY AND EXPERIMENT

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