GB 2567-1981 树脂浇铸体力学性能试验方法总则
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基本信息
| 标准名称: | 树脂浇铸体力学性能试验方法总则 |
| 中标分类: | 化工 >> 合成材料 >> 合成树脂、塑料基础标准与通用方法 |
| 替代情况: | 被GB/T 2567-1994代替 |
| 发布日期: | |
| 实施日期: | 1981-10-01 |
| 首发日期: | |
| 作废日期: | |
| 出版日期: | |
| 页数: | 2页 |
适用范围
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前言
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目录
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引用标准
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所属分类: 化工 合成材料 合成树脂 塑料基础标准与通用方法
下载地址: 点击此处下载
【英文标准名称】:Digitalcellulartelecommunicationssystem(Phase2+)-LinkAdaptation(GSM05.09version8.0.1Release1999)(EndorsementoftheEnglishversionEN301709V8.0.1(2000-10)asGermanstandard)
【原文标准名称】:数字蜂窝式电信系统(2+相位).链路适配
【标准号】:EN301709-2000
【标准状态】:现行
【国别】:
【发布日期】:2005-04
【实施或试行日期】:
【发布单位】:欧洲标准学会(EN)
【起草单位】:
【标准类型】:()
【标准水平】:()
【中文主题词】:特殊服务;移动无线电通信系统;通信设备;通信链路;呼叫传输;通信系统;无线电话业务;通信网;电信;数字的;电气工程
【英文主题词】:Calltransmission;Communicationnetworks;Communicationservice;Communicationsystems;Digital;Electricalengineering;Mobileradiosystems;Radiotelephonetraffic;Specialservice;Telecommunication;Telecommunicationlinks;Telecommunications
【摘要】:
【中国标准分类号】:M37
【国际标准分类号】:33_070_50
【页数】:2P;A4
【正文语种】:英语
【英文标准名称】:StandardTestMethodforSteady-StateHeatTransferPropertiesofPipeInsulation
【原文标准名称】:管道隔热稳态热传导性能的标准试验方法
【标准号】:ASTMC335/C335M-2010e1
【标准状态】:现行
【国别】:
【发布日期】:2010
【实施或试行日期】:
【发布单位】:美国材料与试验协会(US-ASTM)
【起草单位】:C16.30
【标准类型】:(TestMethod)
【标准水平】:()
【中文主题词】:
【英文主题词】:apparentthermalconductivity;experimentaldesign;radialheattransfer;steadystateheattransfer;thermalresistance;Heatingtests--thermalinsulation;Insulatedflatsurfaces/pipes;Pipethermalinsulation;Thermaltransmissionproperties--stea
【摘要】:Asdeterminedbythistestmethod,thepipeinsulationlinealthermalresistanceorconductance(and,whenapplicable,thethermalresistivityorconductivity)aremeansofcomparinginsulationswhichincludetheeffectsoftheinsulationanditsfituponthepipe,circumferentialandlongitudinaljointing,andvariationsinconstruction,butdonotincludetheeffectsoftheoutersurfaceresistanceorheattransfercoefficient.Theyarethusappropriatewhentheinsulationouter-surfacetemperatureandthepipetemperatureareknownorspecified.However,sincethethermalpropertiesdeterminedbythistestmethodincludetheeffectsoffitandjointing,theyarenottruematerialproperties.Therefore,propertiesdeterminedbythistestmethodaresomewhatdifferentfromthoseobtainedonapparentlysimilarmaterialinflatformusingtheguardedhotplate,TestMethodC177,ortheheatflowmeterapparatus,TestMethodC518.Thepipeinsulationlinealthermaltransferenceincorporatesboththeeffectoftheinsulationanditsfituponthepipeandalsotheeffectofthesurfaceheat-transfercoefficient.Itisappropriatewhentheambientconditionsandthepipetemperatureareknownorspecifiedandthethermaleffectsofthesurfacearetobeincluded.Becauseofthetestconditionrequirementsprescribedinthistestmethod,recognizethatthethermaltransferpropertiesobtainedwillnotnecessarilybethevaluepertainingunderallserviceconditions.Asanexample,thistestmethodprovidesthatthethermalpropertiesshallbeobtainedbytestsondryorconditionedspecimens,whilesuchconditionsarenotnecessarilyrealizedinservice.Theresultsobtainedarestrictlyapplicableonlyfortheconditionsoftestandfortheproductconstructiontested,andmustnotbeappliedwithoutproperadjustmentwhenthematerialisusedatotherconditions,suchasmeantemperaturesthatdifferappreciablyfromthoseofthetest.Withthesequalificationsinmind,thefollowingapply:Forhorizontalorverticalpipesofthesamesizeandtemperature,operatinginthesameambientenvironment,valuesobtainedbythistestmethodcanbeusedforthedirectcomparisonofseveralspecimens,forcomparisontospecificationvalues,andforengineeringdataforestimatingheatlossofactualapplicationsofspecimensidenticaltothosetested(includinganyjacketsorsurfacetreatments).Whenappropriate,correctfortheeffectofendjointsandotherrecurringirregularities(4.4).Whenapplyingtheresultstoinsulationsizesdifferentfromthoseusedinthetest,anappropriatemathematicalanalysisisrequired.Forhomogeneousmaterials,thisconsistsoftheuseofthethermalconductivityorresistivityvalues(correctedforanychangesinmeantemperature)plustheuseofthesurfaceheattransfercoefficientwhentheambienttemperatureisconsidered(forexample,seePracticeC680).Fornonhomogeneousandreflectiveinsulationmaterials,amoredetailedmathematicalmodelisrequiredwhichproperlyaccountsfortheindividualmodesofheattransfer(conduction,convection,radiation)andthevariationofeachmodewithchangingpipesize,insulationthickness,andtemperature.Itisdifficulttomeasurethethermalperformanceofreflectiveinsulationthatincorporateaircavities,sincethegeometryandorientationoftheaircavitiescanaffectconvectiveheattransfer.Whileitisalwaysdesirabletotestfull-lengthpipesections,thisisnotalwayspossibleduetosizelimitationsofexistingpipeinsulationtesters.Ifinsulationsectionsaretestedlessthanfulllength,internalconvectiveheattransferare......
【中国标准分类号】:P94
【国际标准分类号】:91_100_60
【页数】:14P.;A4
【正文语种】:
【原文标准名称】:数字蜂窝式电信系统(2+相位).链路适配
【标准号】:EN301709-2000
【标准状态】:现行
【国别】:
【发布日期】:2005-04
【实施或试行日期】:
【发布单位】:欧洲标准学会(EN)
【起草单位】:
【标准类型】:()
【标准水平】:()
【中文主题词】:特殊服务;移动无线电通信系统;通信设备;通信链路;呼叫传输;通信系统;无线电话业务;通信网;电信;数字的;电气工程
【英文主题词】:Calltransmission;Communicationnetworks;Communicationservice;Communicationsystems;Digital;Electricalengineering;Mobileradiosystems;Radiotelephonetraffic;Specialservice;Telecommunication;Telecommunicationlinks;Telecommunications
【摘要】:
【中国标准分类号】:M37
【国际标准分类号】:33_070_50
【页数】:2P;A4
【正文语种】:英语
【英文标准名称】:StandardTestMethodforSteady-StateHeatTransferPropertiesofPipeInsulation
【原文标准名称】:管道隔热稳态热传导性能的标准试验方法
【标准号】:ASTMC335/C335M-2010e1
【标准状态】:现行
【国别】:
【发布日期】:2010
【实施或试行日期】:
【发布单位】:美国材料与试验协会(US-ASTM)
【起草单位】:C16.30
【标准类型】:(TestMethod)
【标准水平】:()
【中文主题词】:
【英文主题词】:apparentthermalconductivity;experimentaldesign;radialheattransfer;steadystateheattransfer;thermalresistance;Heatingtests--thermalinsulation;Insulatedflatsurfaces/pipes;Pipethermalinsulation;Thermaltransmissionproperties--stea
【摘要】:Asdeterminedbythistestmethod,thepipeinsulationlinealthermalresistanceorconductance(and,whenapplicable,thethermalresistivityorconductivity)aremeansofcomparinginsulationswhichincludetheeffectsoftheinsulationanditsfituponthepipe,circumferentialandlongitudinaljointing,andvariationsinconstruction,butdonotincludetheeffectsoftheoutersurfaceresistanceorheattransfercoefficient.Theyarethusappropriatewhentheinsulationouter-surfacetemperatureandthepipetemperatureareknownorspecified.However,sincethethermalpropertiesdeterminedbythistestmethodincludetheeffectsoffitandjointing,theyarenottruematerialproperties.Therefore,propertiesdeterminedbythistestmethodaresomewhatdifferentfromthoseobtainedonapparentlysimilarmaterialinflatformusingtheguardedhotplate,TestMethodC177,ortheheatflowmeterapparatus,TestMethodC518.Thepipeinsulationlinealthermaltransferenceincorporatesboththeeffectoftheinsulationanditsfituponthepipeandalsotheeffectofthesurfaceheat-transfercoefficient.Itisappropriatewhentheambientconditionsandthepipetemperatureareknownorspecifiedandthethermaleffectsofthesurfacearetobeincluded.Becauseofthetestconditionrequirementsprescribedinthistestmethod,recognizethatthethermaltransferpropertiesobtainedwillnotnecessarilybethevaluepertainingunderallserviceconditions.Asanexample,thistestmethodprovidesthatthethermalpropertiesshallbeobtainedbytestsondryorconditionedspecimens,whilesuchconditionsarenotnecessarilyrealizedinservice.Theresultsobtainedarestrictlyapplicableonlyfortheconditionsoftestandfortheproductconstructiontested,andmustnotbeappliedwithoutproperadjustmentwhenthematerialisusedatotherconditions,suchasmeantemperaturesthatdifferappreciablyfromthoseofthetest.Withthesequalificationsinmind,thefollowingapply:Forhorizontalorverticalpipesofthesamesizeandtemperature,operatinginthesameambientenvironment,valuesobtainedbythistestmethodcanbeusedforthedirectcomparisonofseveralspecimens,forcomparisontospecificationvalues,andforengineeringdataforestimatingheatlossofactualapplicationsofspecimensidenticaltothosetested(includinganyjacketsorsurfacetreatments).Whenappropriate,correctfortheeffectofendjointsandotherrecurringirregularities(4.4).Whenapplyingtheresultstoinsulationsizesdifferentfromthoseusedinthetest,anappropriatemathematicalanalysisisrequired.Forhomogeneousmaterials,thisconsistsoftheuseofthethermalconductivityorresistivityvalues(correctedforanychangesinmeantemperature)plustheuseofthesurfaceheattransfercoefficientwhentheambienttemperatureisconsidered(forexample,seePracticeC680).Fornonhomogeneousandreflectiveinsulationmaterials,amoredetailedmathematicalmodelisrequiredwhichproperlyaccountsfortheindividualmodesofheattransfer(conduction,convection,radiation)andthevariationofeachmodewithchangingpipesize,insulationthickness,andtemperature.Itisdifficulttomeasurethethermalperformanceofreflectiveinsulationthatincorporateaircavities,sincethegeometryandorientationoftheaircavitiescanaffectconvectiveheattransfer.Whileitisalwaysdesirabletotestfull-lengthpipesections,thisisnotalwayspossibleduetosizelimitationsofexistingpipeinsulationtesters.Ifinsulationsectionsaretestedlessthanfulllength,internalconvectiveheattransferare......
【中国标准分类号】:P94
【国际标准分类号】:91_100_60
【页数】:14P.;A4
【正文语种】: