Effect of bend angle on plastic loads of pipe bends under internal pressure and in-plane bending

Kuk Hee Lee; Yun Jae Kim; Chang Sik Oh; Bong Yo; Chi Yong Park

doi:10.3795/KSME-A.2007.31.3.322

Effect of bend angle on plastic loads of pipe bends under internal pressure and in-plane bending

Kuk Hee Lee, Yun Jae Kim, Chang Sik Oh, Bong Yo, Chi Yong Park

School of Mechanical Engineering

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

Abstract

This paper quantifies the effect of a bend angle of a pipe bend on plastic loads, via small strain and large strain FE limit analyses using elastic-perfectly plastic materials. To consider the effect of the attached straight pipe, two limiting cases are considered. One case corresponds to the pipe bend without the attached straight pipe, and the other to that with a sufficiently long attached straight pipe. For the former case, the FE results suggest that the limit load is not affected by the bend angle for both in-plane bending and internal pressure. For the latter case, however, the bend angle affects plastic loads. An interesting finding is that the plastic load smoothly changes from the limit load of the straight pipe when the bend angle approaches zero to the plastic load of the 90° pipe bend when the bend angle approaches 90 degree. Based on such observations, closed-form plastic load solutions are proposed for the pipe bend with an arbitrary bend angle under in-plane bending and internal pressure.

Original language	English
Pages (from-to)	322-330
Number of pages	9
Journal	Transactions of the Korean Society of Mechanical Engineers, A
Volume	31
Issue number	3
DOIs	https://doi.org/10.3795/KSME-A.2007.31.3.322
Publication status	Published - 2007 Mar

Keywords

Bend angle
Finite element limit analysis
Large geometry change
Pipe bend
Plastic load
Small geometry change

ASJC Scopus subject areas

Mechanical Engineering

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10.3795/KSME-A.2007.31.3.322

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title = "Effect of bend angle on plastic loads of pipe bends under internal pressure and in-plane bending",

abstract = "This paper quantifies the effect of a bend angle of a pipe bend on plastic loads, via small strain and large strain FE limit analyses using elastic-perfectly plastic materials. To consider the effect of the attached straight pipe, two limiting cases are considered. One case corresponds to the pipe bend without the attached straight pipe, and the other to that with a sufficiently long attached straight pipe. For the former case, the FE results suggest that the limit load is not affected by the bend angle for both in-plane bending and internal pressure. For the latter case, however, the bend angle affects plastic loads. An interesting finding is that the plastic load smoothly changes from the limit load of the straight pipe when the bend angle approaches zero to the plastic load of the 90° pipe bend when the bend angle approaches 90 degree. Based on such observations, closed-form plastic load solutions are proposed for the pipe bend with an arbitrary bend angle under in-plane bending and internal pressure.",

keywords = "Bend angle, Finite element limit analysis, Large geometry change, Pipe bend, Plastic load, Small geometry change",

author = "Lee, {Kuk Hee} and Kim, {Yun Jae} and Oh, {Chang Sik} and Bong Yo and Park, {Chi Yong}",

note = "Funding Information: This research is performed under the Program of Basic Atomic Energy Research Institute (BAERI), is a part of the Nuclear R & D Programs funded by the Ministry of Science and Technology (MOST) of Korea, and under the Program of the Brain Korea 21 Project in 2006. The authors also wish to acknowledge valuable comments from reviewers.",

year = "2007",

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doi = "10.3795/KSME-A.2007.31.3.322",

language = "English",

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AU - Lee, Kuk Hee

AU - Kim, Yun Jae

AU - Oh, Chang Sik

AU - Yo, Bong

AU - Park, Chi Yong

N1 - Funding Information: This research is performed under the Program of Basic Atomic Energy Research Institute (BAERI), is a part of the Nuclear R & D Programs funded by the Ministry of Science and Technology (MOST) of Korea, and under the Program of the Brain Korea 21 Project in 2006. The authors also wish to acknowledge valuable comments from reviewers.

PY - 2007/3

Y1 - 2007/3

N2 - This paper quantifies the effect of a bend angle of a pipe bend on plastic loads, via small strain and large strain FE limit analyses using elastic-perfectly plastic materials. To consider the effect of the attached straight pipe, two limiting cases are considered. One case corresponds to the pipe bend without the attached straight pipe, and the other to that with a sufficiently long attached straight pipe. For the former case, the FE results suggest that the limit load is not affected by the bend angle for both in-plane bending and internal pressure. For the latter case, however, the bend angle affects plastic loads. An interesting finding is that the plastic load smoothly changes from the limit load of the straight pipe when the bend angle approaches zero to the plastic load of the 90° pipe bend when the bend angle approaches 90 degree. Based on such observations, closed-form plastic load solutions are proposed for the pipe bend with an arbitrary bend angle under in-plane bending and internal pressure.

AB - This paper quantifies the effect of a bend angle of a pipe bend on plastic loads, via small strain and large strain FE limit analyses using elastic-perfectly plastic materials. To consider the effect of the attached straight pipe, two limiting cases are considered. One case corresponds to the pipe bend without the attached straight pipe, and the other to that with a sufficiently long attached straight pipe. For the former case, the FE results suggest that the limit load is not affected by the bend angle for both in-plane bending and internal pressure. For the latter case, however, the bend angle affects plastic loads. An interesting finding is that the plastic load smoothly changes from the limit load of the straight pipe when the bend angle approaches zero to the plastic load of the 90° pipe bend when the bend angle approaches 90 degree. Based on such observations, closed-form plastic load solutions are proposed for the pipe bend with an arbitrary bend angle under in-plane bending and internal pressure.

KW - Bend angle

KW - Finite element limit analysis

KW - Large geometry change

KW - Pipe bend

KW - Plastic load

KW - Small geometry change

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Effect of bend angle on plastic loads of pipe bends under internal pressure and in-plane bending

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Keywords

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