On the Mechanical Response in a Thermal Barrier System Due to Martensitic Phase Transformation in the Bond Coat

Anette M Karlsson

doi:10.1115/1.1605107

On the Mechanical Response in a Thermal Barrier System Due to Martensitic Phase Transformation in the Bond Coat

Research output: Contribution to journal › Article › peer-review

Abstract

Recentstudies have shown that Pt-aluminide—a common bond coat material inthermal barrier coatings—undergoes martensitic transformations during thermal cycling. The transformationsare associated with both large transformation strain and a strainhysteresis, leading to accumulation of a mismatch strain. Thermal barriersystems based on Pt-aluminide bond coats are susceptible to interfacialmorphological instabilities. In this study, we investigate how the cyclicmartensitic transformation influences the morphology. Two key results are: (i)the morphological instabilities are highly sensitive to the thermo-mechanical propertiesof the substrate due to the martensitic transformation; (ii) thehysteresis associated with cyclic martensitic transformation cannot drive the morphologicalinstabilities; the strains associated with the formation of the thermallygrown oxide do

Original language	American English
Journal	Journal of Engineering Materials and Technology - Transactions of the ASME
Volume	125
DOIs	https://doi.org/10.1115/1.1605107
State	Published - Oct 1 2003

Keywords

platinum alloys
aluminium alloys
thermal expansion
plastic deformation
yield strength
thermal stresses
internal stresses
thermal barrier coatings
martensitic transformations
elastic hysteresis
interface structure

Disciplines

Mechanical Engineering

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On the Mechanical Response in a Thermal Barrier System Due to MarFinal published version, 1.19 MBLicense: CC BY

http://dx.doi.org/10.1115/1.1605107

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@article{2411585280fe4cb6a60b386f8a7ec8c6,

title = "On the Mechanical Response in a Thermal Barrier System Due to Martensitic Phase Transformation in the Bond Coat",

abstract = " Recentstudies have shown that Pt-aluminide—a common bond coat material inthermal barrier coatings—undergoes martensitic transformations during thermal cycling. The transformationsare associated with both large transformation strain and a strainhysteresis, leading to accumulation of a mismatch strain. Thermal barriersystems based on Pt-aluminide bond coats are susceptible to interfacialmorphological instabilities. In this study, we investigate how the cyclicmartensitic transformation influences the morphology. Two key results are: (i)the morphological instabilities are highly sensitive to the thermo-mechanical propertiesof the substrate due to the martensitic transformation; (ii) thehysteresis associated with cyclic martensitic transformation cannot drive the morphologicalinstabilities; the strains associated with the formation of the thermallygrown oxide do",

keywords = "platinum alloys, aluminium alloys, thermal expansion, plastic deformation, yield strength, thermal stresses, internal stresses, thermal barrier coatings, martensitic transformations, elastic hysteresis, interface structure",

author = "Karlsson, \{Anette M\}",

note = "Karlsson, A. M., 2003, {"}On the Mechanical Response in a Thermal Barrier System due to Martensitic Phase Transformation in the Bond Coat,{"} Journal of Engineering Materials and Technology, 125(4) pp. 346-352.",

year = "2003",

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doi = "10.1115/1.1605107",

language = "American English",

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T1 - On the Mechanical Response in a Thermal Barrier System Due to Martensitic Phase Transformation in the Bond Coat

AU - Karlsson, Anette M

N1 - Karlsson, A. M., 2003, "On the Mechanical Response in a Thermal Barrier System due to Martensitic Phase Transformation in the Bond Coat," Journal of Engineering Materials and Technology, 125(4) pp. 346-352.

PY - 2003/10/1

Y1 - 2003/10/1

N2 - Recentstudies have shown that Pt-aluminide—a common bond coat material inthermal barrier coatings—undergoes martensitic transformations during thermal cycling. The transformationsare associated with both large transformation strain and a strainhysteresis, leading to accumulation of a mismatch strain. Thermal barriersystems based on Pt-aluminide bond coats are susceptible to interfacialmorphological instabilities. In this study, we investigate how the cyclicmartensitic transformation influences the morphology. Two key results are: (i)the morphological instabilities are highly sensitive to the thermo-mechanical propertiesof the substrate due to the martensitic transformation; (ii) thehysteresis associated with cyclic martensitic transformation cannot drive the morphologicalinstabilities; the strains associated with the formation of the thermallygrown oxide do

AB - Recentstudies have shown that Pt-aluminide—a common bond coat material inthermal barrier coatings—undergoes martensitic transformations during thermal cycling. The transformationsare associated with both large transformation strain and a strainhysteresis, leading to accumulation of a mismatch strain. Thermal barriersystems based on Pt-aluminide bond coats are susceptible to interfacialmorphological instabilities. In this study, we investigate how the cyclicmartensitic transformation influences the morphology. Two key results are: (i)the morphological instabilities are highly sensitive to the thermo-mechanical propertiesof the substrate due to the martensitic transformation; (ii) thehysteresis associated with cyclic martensitic transformation cannot drive the morphologicalinstabilities; the strains associated with the formation of the thermallygrown oxide do

KW - platinum alloys

KW - aluminium alloys

KW - thermal expansion

KW - plastic deformation

KW - yield strength

KW - thermal stresses

KW - internal stresses

KW - thermal barrier coatings

KW - martensitic transformations

KW - elastic hysteresis

KW - interface structure

UR - https://engagedscholarship.csuohio.edu/enme_facpub/145

U2 - 10.1115/1.1605107

DO - 10.1115/1.1605107

M3 - Article

VL - 125

JO - Journal of Engineering Materials and Technology - Transactions of the ASME

JF - Journal of Engineering Materials and Technology - Transactions of the ASME

ER -

On the Mechanical Response in a Thermal Barrier System Due to Martensitic Phase Transformation in the Bond Coat

Abstract

Keywords

Disciplines

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