在互联网上预测镀锌钢的寿命
PREDICTING LIFE OF GALVANIZED STEEL ON INTERNET
摘 要
预报腐蚀寿命的能力对于有效地应用镀锌钢产品总是十分重要.本文介绍一个基于互联网的为预报锌层的寿命而开发的软件.文中叙述了该预报模型的科学原理和开发过程.讨论了软件设计中关于科学概念、终端用户的要求及应用范围方面的考虑.还用最近公布的数据对预报的精确性进行了评估.
寿命预报
镀锌钢
互联网
软件
Zinc coating
Life prediction
Galvanized steel
Internet
Software
Abstract
The ability to predict corrosion life has always been important for effective application of galvanized steel products.In this paper,an Internet based software developed to predict the life of zinc coatings is introduced.The scientific methodology and development process for the prediction models are described.Considerations for the design of the software with regard to scientific clarity,requirements of end users,and scope of application are discussed.An evaluation of the accuracy of prediction using recently published data is presented.
中图分类号 TG174
所属栏目 应用技术
基金项目
收稿日期 2006/10/11
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引用该论文: X.G.Zhang. PREDICTING LIFE OF GALVANIZED STEEL ON INTERNET[J]. Corrosion & Protection, 2007, 28(1): 50~54
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参考文献
【1】Corrosiveness of various atmospheric test sites as measured by specimens of steel and zinc,in Metal Corrosion in Atmospheres[C]// ASTM STP 435,Philadelphia,PA:1968:360-391.
【2】X G Zhang.Corrosion and electrochemistry of zinc[M].Plenum,New York:1996.
【3】American Galvanizers Association.Galvanising for Corrosion Protection-A Special Guide[M].1990.
【4】G A King.Corrosivity mapping-a novel tool for materials selection and asset management[J].Materials Performance,1995(1):6.
【5】ISO 9223.Corrosion of metals and alloys-corrosivity of atmospheres-classification[S].
【6】G A King.Some apparent limitations in using the ISO atmospheric corrosivity categories[J].Corrosion and Materials,1998,23(2):8.
【7】V Kucera,S Haagenrud,L Atteraas,et al.Corrosion of steel and zinc in scandinavia with respect to the classification of the corrosivity of atmospheres,in Degradation of Metals in the Atmosphere[C]// ASTM STP 965,1982:264.
【8】Knotkova D,Boschek P,Kreislova K.Results of ISO CORRAG Program:Processing of one-year data in respect to corrosivity classification[C]// ASTM STP 1239,Philadelphia,1995:38.
【9】Feliu S,Morcillo M,Feliu S.The prediction of atmospheric corrosion from meteorological and pollution parameters-I.Annual Corrosion[J].Corrosion Science,1993,34:403.
【10】Feliu S,Morcillo M,Feliu S Jr.The prediction of atmospheric corrosion from meteorological and pollution parameters-II.Long-term forecasts[J].Corrosion Science,1993,34:415.
【11】NeuralShell 2[M].Ward System Group Inc.,Fourth Edition,Frederick,MD:1996.
【12】X G Zhang,F E Goodwin.A software for predicting zinc coating life[G]//Proceedings of Galvatech’2001.Belgium,2001.
【13】J P Cai,R A Cottis,S B Lyon.Phenomenological modelling of atmospheric corrosion using an artificial neural network[J].Corrosion Science,1999,41:2001-2030.
【14】Morcillo M,Almeida E,Rosales B,et al.Corrosion y procetion de detales en las atmosferas de iberoamerica parte I:Mapas de Iberoamerica de corrosividad atmosferica[C]// CYTED,1998:283-307.
【15】Mendoza Antonio R,Corvo Francisco.Outdoor and indoor atmospheric corrosion of non-ferrous metals[J].Corrosion Science,2000,42:1123-1147.
【16】Diaz G,San Lorenzo D M,Gallego C L.Zinc recycling through the modified zincex process[C]// J.O.M.:1995 Fall Extractive Meeting Preview-Secondary Zinc,1995:22-23.
【17】D C Cook,A C Van Orden,J Reyes S J,et al.Atmospheric corrosion in marine environments along the gulf of mexico marine corrosion in tropical environments[C]// ASTM STP 1399,2000:75.
【18】汪轩义,王光雍,屈祖玉,等.环境因素对碳钢和低合金钢大气腐蚀的影响[J].中国腐蚀与防护学报,1995,15(2):124.
【19】李牧铮,张 军,祁凤玉.环境因子与大气腐蚀关系的数学模型和大气腐蚀预测[J].中国腐蚀与防护学报,1993,13(1):10.
【2】X G Zhang.Corrosion and electrochemistry of zinc[M].Plenum,New York:1996.
【3】American Galvanizers Association.Galvanising for Corrosion Protection-A Special Guide[M].1990.
【4】G A King.Corrosivity mapping-a novel tool for materials selection and asset management[J].Materials Performance,1995(1):6.
【5】ISO 9223.Corrosion of metals and alloys-corrosivity of atmospheres-classification[S].
【6】G A King.Some apparent limitations in using the ISO atmospheric corrosivity categories[J].Corrosion and Materials,1998,23(2):8.
【7】V Kucera,S Haagenrud,L Atteraas,et al.Corrosion of steel and zinc in scandinavia with respect to the classification of the corrosivity of atmospheres,in Degradation of Metals in the Atmosphere[C]// ASTM STP 965,1982:264.
【8】Knotkova D,Boschek P,Kreislova K.Results of ISO CORRAG Program:Processing of one-year data in respect to corrosivity classification[C]// ASTM STP 1239,Philadelphia,1995:38.
【9】Feliu S,Morcillo M,Feliu S.The prediction of atmospheric corrosion from meteorological and pollution parameters-I.Annual Corrosion[J].Corrosion Science,1993,34:403.
【10】Feliu S,Morcillo M,Feliu S Jr.The prediction of atmospheric corrosion from meteorological and pollution parameters-II.Long-term forecasts[J].Corrosion Science,1993,34:415.
【11】NeuralShell 2[M].Ward System Group Inc.,Fourth Edition,Frederick,MD:1996.
【12】X G Zhang,F E Goodwin.A software for predicting zinc coating life[G]//Proceedings of Galvatech’2001.Belgium,2001.
【13】J P Cai,R A Cottis,S B Lyon.Phenomenological modelling of atmospheric corrosion using an artificial neural network[J].Corrosion Science,1999,41:2001-2030.
【14】Morcillo M,Almeida E,Rosales B,et al.Corrosion y procetion de detales en las atmosferas de iberoamerica parte I:Mapas de Iberoamerica de corrosividad atmosferica[C]// CYTED,1998:283-307.
【15】Mendoza Antonio R,Corvo Francisco.Outdoor and indoor atmospheric corrosion of non-ferrous metals[J].Corrosion Science,2000,42:1123-1147.
【16】Diaz G,San Lorenzo D M,Gallego C L.Zinc recycling through the modified zincex process[C]// J.O.M.:1995 Fall Extractive Meeting Preview-Secondary Zinc,1995:22-23.
【17】D C Cook,A C Van Orden,J Reyes S J,et al.Atmospheric corrosion in marine environments along the gulf of mexico marine corrosion in tropical environments[C]// ASTM STP 1399,2000:75.
【18】汪轩义,王光雍,屈祖玉,等.环境因素对碳钢和低合金钢大气腐蚀的影响[J].中国腐蚀与防护学报,1995,15(2):124.
【19】李牧铮,张 军,祁凤玉.环境因子与大气腐蚀关系的数学模型和大气腐蚀预测[J].中国腐蚀与防护学报,1993,13(1):10.
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