Effects of low- to medium-angle grain boundaries on creep properties of superalloy

Chengjiang Zhang; Weibing Hu; Chenyu Liu; Yunsong Zhao; Jing Shang; Zhixun Wen

doi:10.1080/02670836.2018.1428405

Effects of low- to medium-angle grain boundaries on creep properties of superalloy

Chengjiang Zhang, Weibing Hu, Chenyu Liu, Yunsong Zhao, Jing Shang, Zhixun Wen

School of Mechanics,Civil Engineering and Architecture

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

11 Scopus citations

Abstract

The creep properties of Ni-based bicrystal specimens with low- to medium-angle grain boundaries are investigated at 1100°C and 130 MPa with two misorientation angles prepared by double-seed solidification. Experimental results show that the angle of the grain boundary with respect to the stretching direction has a strong effect on creep life. Molecular dynamics simulations show that the effect of the grain boundary on the neighbouring dislocation density is related to the grain boundary angle. A creep constitutive model with the grain boundary angle and the initial damage rate can be adopted to describe the creep damage evolution. The model is then modified according to the molecular dynamics simulation and experimental results to give more accurate predictions of creep life.

Original language	English
Pages (from-to)	1176-1187
Number of pages	12
Journal	Materials Science and Technology
Volume	34
Issue number	10
DOIs	https://doi.org/10.1080/02670836.2018.1428405
State	Published - 3 Jul 2018

Keywords

Grain boundary
creep properties
crystal plasticity
molecular dynamics

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10.1080/02670836.2018.1428405

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title = "Effects of low- to medium-angle grain boundaries on creep properties of superalloy",

abstract = "The creep properties of Ni-based bicrystal specimens with low- to medium-angle grain boundaries are investigated at 1100°C and 130 MPa with two misorientation angles prepared by double-seed solidification. Experimental results show that the angle of the grain boundary with respect to the stretching direction has a strong effect on creep life. Molecular dynamics simulations show that the effect of the grain boundary on the neighbouring dislocation density is related to the grain boundary angle. A creep constitutive model with the grain boundary angle and the initial damage rate can be adopted to describe the creep damage evolution. The model is then modified according to the molecular dynamics simulation and experimental results to give more accurate predictions of creep life.",

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T1 - Effects of low- to medium-angle grain boundaries on creep properties of superalloy

AU - Zhang, Chengjiang

AU - Hu, Weibing

AU - Liu, Chenyu

AU - Zhao, Yunsong

AU - Shang, Jing

AU - Wen, Zhixun

PY - 2018/7/3

Y1 - 2018/7/3

N2 - The creep properties of Ni-based bicrystal specimens with low- to medium-angle grain boundaries are investigated at 1100°C and 130 MPa with two misorientation angles prepared by double-seed solidification. Experimental results show that the angle of the grain boundary with respect to the stretching direction has a strong effect on creep life. Molecular dynamics simulations show that the effect of the grain boundary on the neighbouring dislocation density is related to the grain boundary angle. A creep constitutive model with the grain boundary angle and the initial damage rate can be adopted to describe the creep damage evolution. The model is then modified according to the molecular dynamics simulation and experimental results to give more accurate predictions of creep life.

AB - The creep properties of Ni-based bicrystal specimens with low- to medium-angle grain boundaries are investigated at 1100°C and 130 MPa with two misorientation angles prepared by double-seed solidification. Experimental results show that the angle of the grain boundary with respect to the stretching direction has a strong effect on creep life. Molecular dynamics simulations show that the effect of the grain boundary on the neighbouring dislocation density is related to the grain boundary angle. A creep constitutive model with the grain boundary angle and the initial damage rate can be adopted to describe the creep damage evolution. The model is then modified according to the molecular dynamics simulation and experimental results to give more accurate predictions of creep life.

KW - Grain boundary

KW - creep properties

KW - crystal plasticity

KW - molecular dynamics

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M3 - 文章

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SP - 1176

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JO - Materials Science and Technology

JF - Materials Science and Technology

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ER -

Effects of low- to medium-angle grain boundaries on creep properties of superalloy

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