Crack-Tip Stress Field of Cracked Pipe under Combined Tension and Thermal Load

J. H. Je, H. S. Lee, D. J. Kim, Yun-Jae Kim

Research output: Contribution to journalConference article

Abstract

In the presence of excessive plasticity, the fracture toughness depends on the size and geometry. For material under fully yielded conditions, the stresses near the crack tip are not unique, but depend on geometry. So Single-parameter; J-approach is limited to high-constraint crack geometry. J-Q theory has been proposed in order to decide crack geometry constraint. This approach assumes that the crack-tip fields have two degrees of freedom. In this paper, based on J-Q theory, crack-tip stress field of fully circumferential cracked pipe under combined load is investigated using FE analysis. Combined loads are tensile axial force and thermal gradient of radial direction. Q-stresses of a crack geometry and it's loading state are used to determine constraint effect, and give a characteristic order for crack-tip constraint.

Original languageEnglish
Pages (from-to)1686-1694
Number of pages9
JournalProcedia Engineering
Volume130
DOIs
Publication statusPublished - 2015 Jan 1
Event14th International Conference on Pressure Vessel Technology, 2015 - Shanghai, China
Duration: 2015 Sep 232015 Sep 26

Fingerprint

Thermal load
Crack tips
Pipe
Geometry
Cracks
Thermal gradients
Plasticity
Fracture toughness

Keywords

  • Combined load
  • Crack-tip Constraint
  • Cracked pipe
  • Q-stress

ASJC Scopus subject areas

  • Engineering(all)

Cite this

Crack-Tip Stress Field of Cracked Pipe under Combined Tension and Thermal Load. / Je, J. H.; Lee, H. S.; Kim, D. J.; Kim, Yun-Jae.

In: Procedia Engineering, Vol. 130, 01.01.2015, p. 1686-1694.

Research output: Contribution to journalConference article

Je, J. H. ; Lee, H. S. ; Kim, D. J. ; Kim, Yun-Jae. / Crack-Tip Stress Field of Cracked Pipe under Combined Tension and Thermal Load. In: Procedia Engineering. 2015 ; Vol. 130. pp. 1686-1694.
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