中国科学:技术科学(英文版)2024,Vol.67Issue(5) :1443-1457.DOI:10.1007/s11431-022-2486-x

Phase field modeling of ferroelastic variant switching in yttria-stabilized t'zirconia with strain gradient elasticity and interface tension

ZHOU QianQian WEI YueGuang ZHOU YiChun YANG Li
中国科学:技术科学(英文版)2024,Vol.67Issue(5) :1443-1457.DOI:10.1007/s11431-022-2486-x
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Phase field modeling of ferroelastic variant switching in yttria-stabilized t'zirconia with strain gradient elasticity and interface tension

ZHOU QianQian 1WEI YueGuang 1ZHOU YiChun 2YANG Li2
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作者信息

  • 1. College of Engineering,BIC-ESAT,Peking University,Beijing 100871,China
  • 2. School of Advanced Materials and Nanotechnology,Xidian University,Xi'an 710126,China;Frontier Research Center of Thin Films and Coatings for Device Applications,Academy of Advanced Interdisciplinary Research,Xidian University Xi'an 710126,China
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Abstract

The 6-8 wt%yttria-stabilized zirconia with a tetragonal structure(t'-YSZ)is extensively employed in thermal barrier coatings.The exceptional fracture toughness of t'-YSZ can be attributed to its distinctive ferroelastic toughening mechanism.Micro-structure and interface tension play a critical role in ferroelastic variant switching at the micro-and nano-scale.This paper presents an original thermodynamically consistent phase field(PF)theory for analyzing ferroelastic variant switching at the micro-and nano-scale of t'-YSZ.The theory incorporates strain gradient elasticity using higher-order elastic energy and interface tension tensor via geometric nonlinearity to represent biaxial tension resulting from interface energy.Subsequently,a mixed-type formulation is employed to implement the higher-order theory through the finite element method.For an interface in equilibrium,the effects of strain gradient elasticity result in a more uniform distribution of stresses,whereas the presence of interface tension tensor significantly amplifies the stress magnitude at the interface.The introduction of an interface tension tensor increases the maximum value of stress at the interface by a factor of 4 to 10.The nucleation and evolution of variants at a pre-existing crack tip in a mono-phase t'-YSZ have also been studied.The strain gradient elasticity is capable of capturing the size effect of ferroelastic variant switching associated with microstructures in experiments.Specifically,when the grain size approaches that of the specimen,the critical load required for variant switching at the crack tip increases,resulting in greater dissipation of elastic energy during ferroelastic variant switching.Moreover,the interface tension accelerates the evolution of variants.The presented framework exhibits significant potential in modeling ferroelastic variant switching at the micro-and nano-scale.

Key words

thermodynamics/strain gradient elasticity/interface tension/phase field method/ferroelastic variant switching

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基金项目

National Natural Science Foundation of China(11890684)

National Natural Science Foundation of China(12032001)

National Natural Science Foundation of China(51590891)

Technology Innovation Leading Program of Shaanxi(2022TD-28)

Hunan Provincial Natural Science Innovation Research Group Fund(2020JJ1005)

出版年

2024
中国科学:技术科学(英文版)
中国科学院

中国科学:技术科学(英文版)

CSTPCDEI
影响因子:1.056
ISSN:1674-7321
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