A physically-based constitutive model for a typical nickel-based superalloy

•The hot deformation behavior of a typical nickel-based superalloy is investigated.•The obvious dynamic recrystallization occurs under high temperature and low strain rate.•A physically-based constitutive model is developed for the studied nickel-based superalloy. Due to their excellent properties,...

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Bibliographic Details
Published inComputational materials science Vol. 83; pp. 282 - 289
Main Authors Lin, Y.C., Chen, Xiao-Min, Wen, Dong-Xu, Chen, Ming-Song
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.02.2014
Elsevier
Subjects
Applied sciences
Dynamic recrystallization
Dynamical recovery
Elasticity. Plasticity
Exact sciences and technology
Hot deformation
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
Nickel-based superalloy
Hot deformation
Nickel-based superalloy
Dynamical recovery
Dynamic recrystallization
Constitutive equation
Nickel base alloys
Plastic flow
Stress strain relation
Dynamical recrystallization
High temperature
Compression test
Dislocation
Viscoplasticity
Zener Hollomon parameter
Strain rate
Online AccessGet full text
ISSN0927-0256
1879-0801
DOI10.1016/j.commatsci.2013.11.003

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Abstract •The hot deformation behavior of a typical nickel-based superalloy is investigated.•The obvious dynamic recrystallization occurs under high temperature and low strain rate.•A physically-based constitutive model is developed for the studied nickel-based superalloy. Due to their excellent properties, nickel-based superalloys are extensively used in critical parts of modern aero engine and gas turbine. The hot deformation behaviors of a typical nickel-based superalloy are investigated by hot compression tests with strain rate of (0.001–1)s−1 and forming temperature of (920–1040)°C. Results show that the flow stress is sensitive to the forming temperature and strain rate. With the increase of forming temperature or the decrease of strain rate, the flow stress decreases significantly. Under the high forming temperature and low strain rate, the flow stress–strain curves show the obvious dynamic recrystallization. Based on the stress–dislocation relation and kinetics of dynamic recrystallization, a two-stage constitutive model is developed to predict the flow stress of the studied nickel-based superalloy. Comparisons between the predicted and measured flow stress indicate that the established physically-based constitutive model can accurately characterize the hot deformation behaviors for the studied nickel-based superalloy.
AbstractList •The hot deformation behavior of a typical nickel-based superalloy is investigated.•The obvious dynamic recrystallization occurs under high temperature and low strain rate.•A physically-based constitutive model is developed for the studied nickel-based superalloy. Due to their excellent properties, nickel-based superalloys are extensively used in critical parts of modern aero engine and gas turbine. The hot deformation behaviors of a typical nickel-based superalloy are investigated by hot compression tests with strain rate of (0.001–1)s−1 and forming temperature of (920–1040)°C. Results show that the flow stress is sensitive to the forming temperature and strain rate. With the increase of forming temperature or the decrease of strain rate, the flow stress decreases significantly. Under the high forming temperature and low strain rate, the flow stress–strain curves show the obvious dynamic recrystallization. Based on the stress–dislocation relation and kinetics of dynamic recrystallization, a two-stage constitutive model is developed to predict the flow stress of the studied nickel-based superalloy. Comparisons between the predicted and measured flow stress indicate that the established physically-based constitutive model can accurately characterize the hot deformation behaviors for the studied nickel-based superalloy.
Author Wen, Dong-Xu
Chen, Xiao-Min
Chen, Ming-Song
Lin, Y.C.
Author_xml – sequence: 1
  givenname: Y.C.
  surname: Lin
  fullname: Lin, Y.C.
  email: yclin@csu.edu.cn, linyongcheng@163.com
– sequence: 2
  givenname: Xiao-Min
  surname: Chen
  fullname: Chen, Xiao-Min
– sequence: 3
  givenname: Dong-Xu
  surname: Wen
  fullname: Wen, Dong-Xu
– sequence: 4
  givenname: Ming-Song
  surname: Chen
  fullname: Chen, Ming-Song
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ID FETCH-LOGICAL-c411t-1578937089fd380405793b42f788564fbdb06fb100e42d006e483d7c1d00a0543
IEDL.DBID .~1
ISSN 0927-0256
IngestDate Wed Apr 02 07:26:06 EDT 2025
Tue Jul 01 00:37:59 EDT 2025
Thu Apr 24 22:59:25 EDT 2025
Fri Feb 23 02:19:07 EST 2024
IsPeerReviewed true
IsScholarly true
Keywords Hot deformation
Nickel-based superalloy
Dynamical recovery
Dynamic recrystallization
Constitutive equation
Nickel base alloys
Plastic flow
Stress strain relation
Dynamical recrystallization
High temperature
Compression test
Dislocation
Viscoplasticity
Zener Hollomon parameter
Strain rate
Language English
License CC BY 4.0
LinkModel DirectLink
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elsevier_sciencedirect_doi_10_1016_j_commatsci_2013_11_003
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PublicationCentury 2000
PublicationDate 2014-02-01
PublicationDateYYYYMMDD 2014-02-01
PublicationDate_xml – month: 02
  year: 2014
  text: 2014-02-01
  day: 01
PublicationDecade 2010
PublicationPlace Amsterdam
PublicationPlace_xml – name: Amsterdam
PublicationTitle Computational materials science
PublicationYear 2014
Publisher Elsevier B.V
Elsevier
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Snippet •The hot deformation behavior of a typical nickel-based superalloy is investigated.•The obvious dynamic recrystallization occurs under high temperature and low...
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elsevier
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Enrichment Source
Publisher
StartPage 282
SubjectTerms Applied sciences
Dynamic recrystallization
Dynamical recovery
Elasticity. Plasticity
Exact sciences and technology
Hot deformation
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
Nickel-based superalloy
Title A physically-based constitutive model for a typical nickel-based superalloy
URI https://dx.doi.org/10.1016/j.commatsci.2013.11.003
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