Nanoindentation study and mechanical property analysis of nickel-based single crystal superalloys

Zhongkui Zhang; Zhixun Wen; Zhufeng Yue

doi:10.1088/2053-1591/abb058

Nanoindentation study and mechanical property analysis of nickel-based single crystal superalloys

Zhongkui Zhang, Zhixun Wen, Zhufeng Yue

School of Mechanics,Civil Engineering and Architecture

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

6 Scopus citations

Abstract

Based on uniaxial tensile and compressive creeps, the mechanical properties of the third generation nickel-based single crystal superalloy were studied via the combination of nanoindentation, crystal plasticity theory, and finite element analysis. The Young's moduli and hardness of γ, γ′ and the topologically close-packed (TCP) phases are related to chemical composition and applied stress. The maximum values of the Von Mises equivalent stress and damage are at the tip of the TCP phase. These values are inversely proportional to the distance to the TCP phase. Furthermore, the rafting of the γ′ phase can be predicted according to the distribution of the TCP phase and stress.

Original language	English
Article number	096509
Journal	Materials Research Express
Volume	7
Issue number	9
DOIs	https://doi.org/10.1088/2053-1591/abb058
State	Published - Sep 2020

Keywords

finite element analysis
hardness
nanoindentation
TCP phase
young s modulus

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title = "Nanoindentation study and mechanical property analysis of nickel-based single crystal superalloys",

abstract = "Based on uniaxial tensile and compressive creeps, the mechanical properties of the third generation nickel-based single crystal superalloy were studied via the combination of nanoindentation, crystal plasticity theory, and finite element analysis. The Young's moduli and hardness of γ, γ′ and the topologically close-packed (TCP) phases are related to chemical composition and applied stress. The maximum values of the Von Mises equivalent stress and damage are at the tip of the TCP phase. These values are inversely proportional to the distance to the TCP phase. Furthermore, the rafting of the γ′ phase can be predicted according to the distribution of the TCP phase and stress.",

keywords = "finite element analysis, hardness, nanoindentation, TCP phase, young s modulus",

author = "Zhongkui Zhang and Zhixun Wen and Zhufeng Yue",

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AU - Zhang, Zhongkui

AU - Wen, Zhixun

AU - Yue, Zhufeng

PY - 2020/9

Y1 - 2020/9

N2 - Based on uniaxial tensile and compressive creeps, the mechanical properties of the third generation nickel-based single crystal superalloy were studied via the combination of nanoindentation, crystal plasticity theory, and finite element analysis. The Young's moduli and hardness of γ, γ′ and the topologically close-packed (TCP) phases are related to chemical composition and applied stress. The maximum values of the Von Mises equivalent stress and damage are at the tip of the TCP phase. These values are inversely proportional to the distance to the TCP phase. Furthermore, the rafting of the γ′ phase can be predicted according to the distribution of the TCP phase and stress.

AB - Based on uniaxial tensile and compressive creeps, the mechanical properties of the third generation nickel-based single crystal superalloy were studied via the combination of nanoindentation, crystal plasticity theory, and finite element analysis. The Young's moduli and hardness of γ, γ′ and the topologically close-packed (TCP) phases are related to chemical composition and applied stress. The maximum values of the Von Mises equivalent stress and damage are at the tip of the TCP phase. These values are inversely proportional to the distance to the TCP phase. Furthermore, the rafting of the γ′ phase can be predicted according to the distribution of the TCP phase and stress.

KW - finite element analysis

KW - hardness

KW - nanoindentation

KW - TCP phase

KW - young s modulus

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SN - 2053-1591

VL - 7

JO - Materials Research Express

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ER -

Nanoindentation study and mechanical property analysis of nickel-based single crystal superalloys

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