简介:Themostcriticalissueinthesteelcatenaryriserdesignistoevaluatethefatiguedamageinthetouchdownzoneaccurately.Appropriatemodelingoftheriser-soilresistanceinthetouchdownzonecanleadtosignificantcostreductionbyoptimizingdesign.Thispaperpresentsaplasticitymodelthatcanbeappliedtonumericallysimulateriser-soilinteractionandevaluatedynamicresponsesandthefatiguedamageofasteelcatenaryriserinthetouchdownzone.Utilizingthemodel,numerousriser-soilelementsareattachedtothesteelcatenaryriserfiniteelements,inwhicheachsimulateslocalfoundationrestraintalongtherisertouchdownzone.Theriser-soilinteractionplasticitymodelaccountsforthebehaviorwithinanallowablecombinedloadingsurface.Themodelwillberepresentedinthispaper,allowingsimplenumericalimplementation.Moreimportantly,itcanbeincorporatedwithinthestructuralanalysisofasteelcatenaryriserwiththefiniteelementmethod.Theapplicabilityofthemodelisinterpretedtheoreticallyandtheresultsareshownthroughapplicationtoanoffshore8.625″steelcatenaryriserexample.Thefatigueanalysisresultsofthelinerelasticriser-soilmodelarealsoshown.Accordingtothecomparisonresultsofthetwomodels,thefatiguelifeanalysisresultsoftheplasticityframeworkarereasonableandthehorizontaleffectsoftheriser-soilinteractioncanbeincluded.
简介:<正>1概况兰(州)渝(重庆)线位于甘肃、四川、陕西省及重庆市境内,北起兰州枢纽,向南经甘肃的榆中、陇南后通过陕西省边界进入四川省,经广元、阆中到达南充之后,分别经渭沱、广安接入重庆枢纽,正线线路长度为818.71km。BIM技术应用范围:兰渝线陇南(含)—桔柑(不含),里程:DK372+850—DK389+750,线路长度16.9km;包括两站一区间范围内的通信、信号、电力、电气化等四电系统工程。工程范围内设有:桔柑隧道(L=8465m),杨家坝隧道(L=2130m),汉王白龙江特大桥(L=1733m),王家沟特大桥(L=890m),