Creep behaviors calculated by varying material constants obtained from different stress regions for a closed-end P91 pipe

Zhao Yanping; Gong Jianming; Wang Xiaowei; Li Qingnan

doi:10.1515/htmp-2015-0002

Creep behaviors calculated by varying material constants obtained from different stress regions for a closed-end P91 pipe

Zhao Yanping, Gong Jianming, Wang Xiaowei, Li Qingnan

School of Mechanical and Power Engineering

Nanjing Tech University

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

Abstract

In order to predict the creep life of a component at high temperature both accurately and economically, continuum damage mechanics approach is used based on experimental creep data. However, material constants used in the models have a great relationship with the performed stress range of creep tests. In this paper, several sets of material constants were obtained from a wide range of stresses on P91 steel. The creep damage tolerance parameter was used to classify these sets, and the modified continuum damage mechanics model was used to investigate a pipe under closed-end condition. Results have illustrated the main difference lies on the tertiary stage while slight difference on the primary and secondary stages, and the contribution of the tertiary stage to the total damage decreased when using material constants from higher stress region.

Original language	English
Pages (from-to)	441-447
Number of pages	7
Journal	High Temperature Materials and Processes
Volume	35
Issue number	5
DOIs	https://doi.org/10.1515/htmp-2015-0002
State	Published - 1 May 2016

Keywords

creep damage tolerance parameter
material constants
modified continuum damage mechanics model

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title = "Creep behaviors calculated by varying material constants obtained from different stress regions for a closed-end P91 pipe",

abstract = "In order to predict the creep life of a component at high temperature both accurately and economically, continuum damage mechanics approach is used based on experimental creep data. However, material constants used in the models have a great relationship with the performed stress range of creep tests. In this paper, several sets of material constants were obtained from a wide range of stresses on P91 steel. The creep damage tolerance parameter was used to classify these sets, and the modified continuum damage mechanics model was used to investigate a pipe under closed-end condition. Results have illustrated the main difference lies on the tertiary stage while slight difference on the primary and secondary stages, and the contribution of the tertiary stage to the total damage decreased when using material constants from higher stress region.",

keywords = "creep damage tolerance parameter, material constants, modified continuum damage mechanics model",

author = "Zhao Yanping and Gong Jianming and Wang Xiaowei and Li Qingnan",

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AU - Yanping, Zhao

AU - Jianming, Gong

AU - Xiaowei, Wang

AU - Qingnan, Li

PY - 2016/5/1

Y1 - 2016/5/1

N2 - In order to predict the creep life of a component at high temperature both accurately and economically, continuum damage mechanics approach is used based on experimental creep data. However, material constants used in the models have a great relationship with the performed stress range of creep tests. In this paper, several sets of material constants were obtained from a wide range of stresses on P91 steel. The creep damage tolerance parameter was used to classify these sets, and the modified continuum damage mechanics model was used to investigate a pipe under closed-end condition. Results have illustrated the main difference lies on the tertiary stage while slight difference on the primary and secondary stages, and the contribution of the tertiary stage to the total damage decreased when using material constants from higher stress region.

AB - In order to predict the creep life of a component at high temperature both accurately and economically, continuum damage mechanics approach is used based on experimental creep data. However, material constants used in the models have a great relationship with the performed stress range of creep tests. In this paper, several sets of material constants were obtained from a wide range of stresses on P91 steel. The creep damage tolerance parameter was used to classify these sets, and the modified continuum damage mechanics model was used to investigate a pipe under closed-end condition. Results have illustrated the main difference lies on the tertiary stage while slight difference on the primary and secondary stages, and the contribution of the tertiary stage to the total damage decreased when using material constants from higher stress region.

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KW - material constants

KW - modified continuum damage mechanics model

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JO - High Temperature Materials and Processes

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ER -

Creep behaviors calculated by varying material constants obtained from different stress regions for a closed-end P91 pipe

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