Unveiling thermal stresses in RETaO4 (RE = Nd, Sm, Eu, Gd, Tb, Dy, Ho and Er) by first-principles calculations and finite element simulations

Thermal stress (σ) plays a critical role in regulating the stability and durability of thermal barrier coatings (TBCs) during service. However, its measurements are limited due to technical challenges. Here, thermal stresses in RETaO4 (RE = Nd, Sm, Eu, Gd, Tb, Dy, Ho, and Er) TBCs have been evaluate...

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Published inActa materialia Vol. 271; p. 119904
Main Authors Gan, Mengdi, Chong, Xiaoyu, Lu, Tianlong, Yang, Chao, Yu, Wei, Shang, Shun-Li, Wang, Yi, Liu, Zi-Kui, Feng, Jing
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.06.2024
Subjects
First-principles calculations
Rare earth tantalates
Thermal barrier coatings
Thermal stress
Thermodynamics
Thermal stress
Thermal barrier coatings
Thermodynamics
First-principles calculations
Rare earth tantalates
Online AccessGet full text
ISSN1359-6454
DOI10.1016/j.actamat.2024.119904

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Abstract Thermal stress (σ) plays a critical role in regulating the stability and durability of thermal barrier coatings (TBCs) during service. However, its measurements are limited due to technical challenges. Here, thermal stresses in RETaO4 (RE = Nd, Sm, Eu, Gd, Tb, Dy, Ho, and Er) TBCs have been evaluated by a cross-scale model, integrating first-principles calculations and finite element simulations (FEM). The isobaric heat capacity, thermal expansion coefficients, density, Young's modulus, and Poisson's ratio of RETaO4 as a function of temperature have been determined by the quasi-harmonic approach (QHA) and the quasi-static approach (QSA). Taking these properties as the input data of FEM, the σ of TBCs with RETaO4 as ceramic coatings is estimated. It indicates that the maximum tensile stress exists at the ceramic and thermal-grown oxide coating interface. Notably, TBCs_NdTaO4 exhibits the highest tensile stress, reaching up to 2093 MPa, while TBCs_GdTaO4 has the lowest value at 1880 MPa. Furthermore, the key factors affecting σ are estimated using interpretable machine learning based on the decision tree algorithm. The RETaO4 with small Poisson's ratio, strong electronegativity, small heat capacity, and thermal expansion coefficients is helpful to achieving low σ in TBCs. GdTaO4, YTaO4 and (Ho0.5Er0.5)TaO4 emerge as more favorable options as ceramic layer due to their lower σ in TBCs. This present cross-scale model provides a successful tool for predicting σ and the reverse design of TBCs materials based on low σ in TBCs. [Display omitted] Abstract Graph: A multiscale evaluation method coupled with first-principles calculations, finite element simulations (FEM), and machine learning, which can be used for reverse design for thermal barrier coating.
AbstractList Thermal stress (σ) plays a critical role in regulating the stability and durability of thermal barrier coatings (TBCs) during service. However, its measurements are limited due to technical challenges. Here, thermal stresses in RETaO4 (RE = Nd, Sm, Eu, Gd, Tb, Dy, Ho, and Er) TBCs have been evaluated by a cross-scale model, integrating first-principles calculations and finite element simulations (FEM). The isobaric heat capacity, thermal expansion coefficients, density, Young's modulus, and Poisson's ratio of RETaO4 as a function of temperature have been determined by the quasi-harmonic approach (QHA) and the quasi-static approach (QSA). Taking these properties as the input data of FEM, the σ of TBCs with RETaO4 as ceramic coatings is estimated. It indicates that the maximum tensile stress exists at the ceramic and thermal-grown oxide coating interface. Notably, TBCs_NdTaO4 exhibits the highest tensile stress, reaching up to 2093 MPa, while TBCs_GdTaO4 has the lowest value at 1880 MPa. Furthermore, the key factors affecting σ are estimated using interpretable machine learning based on the decision tree algorithm. The RETaO4 with small Poisson's ratio, strong electronegativity, small heat capacity, and thermal expansion coefficients is helpful to achieving low σ in TBCs. GdTaO4, YTaO4 and (Ho0.5Er0.5)TaO4 emerge as more favorable options as ceramic layer due to their lower σ in TBCs. This present cross-scale model provides a successful tool for predicting σ and the reverse design of TBCs materials based on low σ in TBCs. [Display omitted] Abstract Graph: A multiscale evaluation method coupled with first-principles calculations, finite element simulations (FEM), and machine learning, which can be used for reverse design for thermal barrier coating.
ArticleNumber 119904
Author Wang, Yi
Gan, Mengdi
Chong, Xiaoyu
Lu, Tianlong
Yu, Wei
Feng, Jing
Yang, Chao
Liu, Zi-Kui
Shang, Shun-Li
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  givenname: Jing
  surname: Feng
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  email: jingfeng@kust.edu.cn
  organization: Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093, China
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Thermal barrier coatings
Thermodynamics
First-principles calculations
Rare earth tantalates
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Snippet Thermal stress (σ) plays a critical role in regulating the stability and durability of thermal barrier coatings (TBCs) during service. However, its...
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SubjectTerms First-principles calculations
Rare earth tantalates
Thermal barrier coatings
Thermal stress
Thermodynamics
Title Unveiling thermal stresses in RETaO4 (RE = Nd, Sm, Eu, Gd, Tb, Dy, Ho and Er) by first-principles calculations and finite element simulations
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