THE FITNESS-FOR-SERVICE SOFTWARE SYSTEM FOR LOCAL CORROSION THIN ZONE〖ST〗〖HT〗〖WT〗〖KH1D〗

J Chin Soc Corr Pro

2002, Vol. 22

Issue (1): 18-21 DOI:

Research Report

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THE FITNESS-FOR-SERVICE SOFTWARE SYSTEM FOR LOCAL CORROSION THIN ZONE〖ST〗〖HT〗〖WT〗〖KH1D〗

Xiaogang Li;Dongmei Fu;Chaofang Dong;Lin Liu

北京科技大学材料科学与工程学院

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Abstract A Fitness-For-Service software system for local cor rosion thin zone defects was developed to make safe evaluation and calculate the residual life for the equipment which contains local corrosion thin zone defect s based on the newest advantage of Fitness-For-Service technology. The software system can give the applicability automately after the data of the equipment and its defects were input. The test showed that the software can be used to make r un,repair or replace decisions to ensure that damaged pressurized equipment can continue to operate safely.

Key words: evaluation system local corrosion defect

Received: 23 September 2000

ZTFLH:

TG172

Corresponding Authors: Xiaogang Li

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	Chaofang Dong
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Xiaogang Li; Dongmei Fu; Chaofang Dong; Lin Liu. THE FITNESS-FOR-SERVICE SOFTWARE SYSTEM FOR LOCAL CORROSION THIN ZONE〖ST〗〖HT〗〖WT〗〖KH1D〗. J Chin Soc Corr Pro, 2002, 22(1): 18-21 .

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https://www.jcscp.org/EN/ OR https://www.jcscp.org/EN/Y2002/V22/I1/18

[1]LiXiaogang.Theadvantageoffitness-forserviceforpetrochemicalequipment[J].PetrochemicalCorrosionandProtection,1998,(1):1-4
(李晓刚.石化设备在线安全评定技术进展[J].石油化工腐蚀与防护,1998,(1):1-4)
[2]FoliasES .Ontheeffectofinitialcurvatureoncrackedflatsheets[J].Inter.J .FractureMechanics,1969,5(4):327-346
[3]KastnerW ,RohrichE ,SchmittW .Criticalcracksizesinductilepip ing[J].Inter.J .Pressure&Piping,1981,(9):197-219
[4]TurbakTA ,SimsJR .Comparisonoflocalthinareaassessementmethodologies[A ].ASMEPVP -VOL .288[C ].ASME ,NewYork,1994,307-314.
[5]ChouchaouiBA ,PickRJ .Athree-levelassessementofresidualstrengthofcorrodedlinepipe[A].OMAEVol.5[C].ASME ,NewYork,1994,9-18.

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