DIN 4226-2-2002 混凝土和灰浆用集料.第2部分:轻集料
时间:2024-05-20 05:50:36 来源: 标准资料网 作者:标准资料网 阅读:9290
【英文标准名称】:Aggregatesforconcreteandmortar-Part2:Lightweightaggregates
【原文标准名称】:混凝土和灰浆用集料.第2部分:轻集料
【标准号】:DIN4226-2-2002
【标准状态】:作废
【国别】:德国
【发布日期】:2002-02
【实施或试行日期】:
【发布单位】:德国标准化学会(DIN)
【起草单位】:
【标准类型】:()
【标准水平】:()
【中文主题词】:规范(验收);材料;定义;组分;灰浆;建筑;泡沫溶渣;天然产品;渣化熔岩;凝灰岩;膨胀粘土;膨胀珍珠岩;外观粒子密度;材料性能;坚固性;工业产品;混凝土;耐霜冻性;轻集料;混凝土用集料;施工材料;浮岩;水泥与混凝土技术;飞灰;
【英文主题词】:
【摘要】:
【中国标准分类号】:Q13
【国际标准分类号】:91_100_15
【页数】:40P;A4
【正文语种】:德语
【英文标准名称】:Systemforthecompositionofpatternrepeats
【原文标准名称】:花型循环的组成系统
【标准号】:DIN61106-1983
【标准状态】:现行
【国别】:德国
【发布日期】:1983-04
【实施或试行日期】:
【发布单位】:德国标准化学会(DIN)
【起草单位】:
【标准类型】:()
【标准水平】:()
【中文主题词】:印刷;式样;布;花纹循环;纺织材料;定义
【英文主题词】:printing;repeating;patterns;cloth;textiles;definitions
【摘要】:Systemforthecompositionofpatternrepeats
【中国标准分类号】:W04
【国际标准分类号】:6480
【页数】:3P;A4
【正文语种】:德语
【英文标准名称】:StandardTestMethodsforChemical,MassSpectrometric,Spectrochemical,Nuclear,andRadiochemicalAnalysisofUraniumHexafluoride
【原文标准名称】:六氟化铀的化学、质谱、光谱化学、核(放射性)及放射化学分析的标准试验方法
【标准号】:ASTMC761-2004e1
【标准状态】:现行
【国别】:
【发布日期】:2004
【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】:C26.05
【标准类型】:(TestMethod)
【标准水平】:()
【中文主题词】:试验;铀;六氟化物;分析;核能
【英文主题词】:analyticalmethods;massspectrometry;radiochemistry;uraniumhexafluoride
【摘要】:1.1Thesetestmethodscoverproceduresforsubsamplingandforchemical,massspectrometric,spectrochemical,nuclear,andradiochemicalanalysisofuraniumhexafluorideUF6.MostofthesetestmethodsareinroutineusetodetermineconformancetoUF6specificationsintheEnrichmentandConversionFacilities.1.2Theanalyticalproceduresinthisdocumentappearinthefollowingorder:Note18212;SubcommitteeC26.05willconferwithC26.02concerningtherenumberedsectioninTestMethodsC761todeterminehowconcernswithrenumberingthesesections,asanalyticalmethodsarereplacedwithstand-aloneanalyticalmethods,arebestaddressedinsubsequentpublications.SectionsSubsamplingofUraniumHexafluoride7-10GravimetricDeterminationofUranium11-19TitrimetricDeterminationofUranium20PreparationofHigh-PurityU3O821IsotopicAnalysis22IsotopicAnalysisbyDouble-StandardMass-SpectrometerMethod23-29DeterminationofHydrocarbons,Chlorocarbons,andPartiallySubstitutedHalohydrocarbons29-36AtomicAbsorptionDeterminationofAntimony36SpectrophotometricDeterminationofBromine37TitrimetricDeterminationofChlorine38-44DeterminationofSiliconandPhosphorus45-51DeterminationofBoronandSilicon52-59DeterminationofRuthenium60DeterminationofTitaniumandVanadium61SpectrographicDeterminationofMetallicImpurities62DeterminationofTungsten63DeterminationofThoriumandRareEarths64-69DeterminationofMolybdenum70AtomicAbsorptionDeterminationofMetallicImpurities71-76ImpurityDeterminationbySpark-SourceMassSpectrography77DeterminationofBoron-EquivalentNeutronCrossSection78DeterminationofUranium-233AbundancebyThermalIonizationMassSpectrometry79DeterminationofUranium-232byAlphaSpectrometry80-86DeterminationofFissionProductActivity87DeterminationofPlutoniumbyIonExchangeandAlphaCounting88-92DeterminationofPlutoniumbyExtractionandAlphaCounting93-100DeterminationofNeptuniumbyExtractionandAlphaCounting101-108AtomicAbsorptionDeterminationofChromiumSolubleInUraniumHexafluoride109-115AtomicAbsorptionDeterminationofChromiumInsolubleInUraniumHexafluoride116-122DeterminationofTechnetium-99InUraniumHexafluoride123-131MethodfortheDetermiationofGamma-EnergyEmissionRatefromFissionProductsinUraniumHexafluoride132DeterminationofMetallicImpuritiesbyICP-AES133-142DeterminationofMolybdenum,Niobium,Tantalum,Titanium,andTungstenbyICP-AES143-152