1012 配管の熱疲労評価法の高度化に関する研究 : (4)支配因子に基づく合理的高サイクル熱疲労評価の枠組み(OS10-3 供用エネルギー機器の経年変化と健全性評価-熱疲労-)

三津谷 有貴; 笠原 直人; Naoto KASAHARA

1012 配管の熱疲労評価法の高度化に関する研究 : (4)支配因子に基づく合理的高サイクル熱疲労評価の枠組み(OS10-3 供用エネルギー機器の経年変化と健全性評価-熱疲労-)

三津谷有貴, 笠原直人, Naoto KASAHARA

原子力安全工学科

研究成果: ジャーナルへの寄稿 › Misc

抄録

High cycle thermal fatigue is one of postulated failure modes at the pipes of the cooling systems of the nuclear power plants. We examined this phenomenon and identified heat transfer coefficient, wall thickness and frequency of temperature fluctuation of fluid as dominant parameters. Thorough the fmite element analysis, we could obtain the curves to evaluate the effects of dominant parameters. And using these curves and theoretical equations, we proposed the frame work of evaluation method of high cycle thermal fatigue. As a result, the evaluation has found to be more accurate than current guideline of JSME and have proper safety margin against the actual phenomenon.

寄稿の翻訳タイトル	1012 Development of Sophisticated Method for Thermal Fatigue Failure Prevention : (4)The Framework of Rational Evaluation of High Cycle Thermal Fatigue Based on Dominant Parameters
本文言語	Japanese
ページ（範囲）	1211 - 1213
ジャーナル	M&M材料力学カンファレンス
巻	2010
出版ステータス	出版済み - 9 10月 2010

フィンガープリント

「1012 配管の熱疲労評価法の高度化に関する研究 : (4)支配因子に基づく合理的高サイクル熱疲労評価の枠組み(OS10-3 供用エネルギー機器の経年変化と健全性評価-熱疲労-)」の研究トピックを掘り下げます。これらがまとまってユニークなフィンガープリントを構成します。

引用スタイル

@article{8ba5cd75fcda43f0aad0613b08711d20,

title = "1012 配管の熱疲労評価法の高度化に関する研究 : (4)支配因子に基づく合理的高サイクル熱疲労評価の枠組み(OS10-3 供用エネルギー機器の経年変化と健全性評価-熱疲労-)",

abstract = "High cycle thermal fatigue is one of postulated failure modes at the pipes of the cooling systems of the nuclear power plants. We examined this phenomenon and identified heat transfer coefficient, wall thickness and frequency of temperature fluctuation of fluid as dominant parameters. Thorough the fmite element analysis, we could obtain the curves to evaluate the effects of dominant parameters. And using these curves and theoretical equations, we proposed the frame work of evaluation method of high cycle thermal fatigue. As a result, the evaluation has found to be more accurate than current guideline of JSME and have proper safety margin against the actual phenomenon.",

author = "\{三津谷有貴\} and \{笠原直人\} and Naoto KASAHARA",

year = "2010",

month = oct,

day = "9",

language = "Japanese",

volume = "2010",

pages = "1211 -- 1213",

journal = "M\&M材料力学カンファレンス",

publisher = "The Japan Society of Mechanical Engineers",

}

1012 配管の熱疲労評価法の高度化に関する研究 : (4)支配因子に基づく合理的高サイクル熱疲労評価の枠組み(OS10-3 供用エネルギー機器の経年変化と健全性評価-熱疲労-). / 三津谷有貴; 笠原直人; KASAHARA, Naoto.
In: M&M材料力学カンファレンス, Vol. 2010, 09.10.2010, p. 1211 - 1213.

研究成果: ジャーナルへの寄稿 › Misc

TY - JOUR

T1 - 1012 配管の熱疲労評価法の高度化に関する研究 : (4)支配因子に基づく合理的高サイクル熱疲労評価の枠組み(OS10-3 供用エネルギー機器の経年変化と健全性評価-熱疲労-)

AU - 三津谷有貴, null

AU - 笠原直人, null

AU - KASAHARA, Naoto

PY - 2010/10/9

Y1 - 2010/10/9

N2 - High cycle thermal fatigue is one of postulated failure modes at the pipes of the cooling systems of the nuclear power plants. We examined this phenomenon and identified heat transfer coefficient, wall thickness and frequency of temperature fluctuation of fluid as dominant parameters. Thorough the fmite element analysis, we could obtain the curves to evaluate the effects of dominant parameters. And using these curves and theoretical equations, we proposed the frame work of evaluation method of high cycle thermal fatigue. As a result, the evaluation has found to be more accurate than current guideline of JSME and have proper safety margin against the actual phenomenon.

AB - High cycle thermal fatigue is one of postulated failure modes at the pipes of the cooling systems of the nuclear power plants. We examined this phenomenon and identified heat transfer coefficient, wall thickness and frequency of temperature fluctuation of fluid as dominant parameters. Thorough the fmite element analysis, we could obtain the curves to evaluate the effects of dominant parameters. And using these curves and theoretical equations, we proposed the frame work of evaluation method of high cycle thermal fatigue. As a result, the evaluation has found to be more accurate than current guideline of JSME and have proper safety margin against the actual phenomenon.

M3 - Misc

VL - 2010

SP - 1211

EP - 1213

JO - M&M材料力学カンファレンス

JF - M&M材料力学カンファレンス

ER -