BS 8479-2008 纺织品.织品抽丝倾向的测定方法.旋转室法
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【英文标准名称】:Textiles–Methodfordeterminationofpropensityoffabricstosnagging–Rotatingchambermethod
【原文标准名称】:纺织品.织品抽丝倾向的测定方法.旋转室法
【标准号】:BS8479-2008
【标准状态】:现行
【国别】:英国
【发布日期】:2008-11-30
【实施或试行日期】:2008-11-30
【发布单位】:英国标准学会(GB-BSI)
【起草单位】:BSI
【标准类型】:()
【标准水平】:()
【中文主题词】:布;衣服;织物试验;织物钩丝测定;表面缺陷;试验设备;试样;纺织试验;纺织品
【英文主题词】:Cloth;Clothing;Fabrictesting;Snagdetermination(fabrics);Surfacedefects;Testequipment;Testspecimens;Textiletesting;Textiles
【摘要】:ThisBritishStandardgivesamethodfordeterminingthepropensityoffabricstosnagging,andrelatedsurfacedefects.Thestandardisapplicabletoknittedandtowovenfabrics.
【中国标准分类号】:W04
【国际标准分类号】:59_080_01
【页数】:20P.;A4
【正文语种】:英语
基本信息
| 标准名称: | 煤质颗粒活性炭试验方法 氯乙烷蒸气防护时间的测定 |
| 英文名称: | Determination of protecting action time of granular activated carbon against chloroethane vapor |
| 中标分类: |
矿业 >>
固体燃料矿 >>
炼焦、化工、建材用煤 |
| ICS分类: |
石油及相关技术 >>
燃料 >>
固体燃料
|
| 替代情况: | 替代GB 7702.12-1987;被GB/T 7702.10-2008代替 |
| 发布部门: | 国家技术监督局 |
| 发布日期: | 1997-12-03 |
| 实施日期: | 1998-06-01 |
| 首发日期: | 1987-04-21 |
| 作废日期: | 2008-10-01 |
| 主管部门: | 中国兵器工业集团公司 |
| 提出单位: | 中国兵器工业总公司 |
| 归口单位: | 中国兵器工业标准化研究所 |
| 起草单位: | 太原新华化工厂 |
| 起草人: | 李仁芳、张旭、张重杰、王建光、张丽荣、魏学青 |
| 出版社: | 中国标准出版社 |
| 出版日期: | 1998-06-01 |
| 页数: | 4页 |
适用范围
本标准规定了煤质颗粒活性炭在规定条件下对氯乙烷蒸气防护时间测定所需仪器和试剂、测定步骤及测定结果的处理等内容。本标准适用于煤质颗粒活性炭氯乙烷蒸气防护时间的测定,也适用于其他颗粒活性炭和浸渍活性炭氯乙烷蒸气防护时间的测定。
前言
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引用标准
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所属分类: 矿业 固体燃料矿 炼焦 化工 建材用煤 石油及相关技术 燃料 固体燃料
【英文标准名称】:Industrialautomationsystemsandintegration-Physicaldevicecontrol-DimensionalMeasuringInterfaceStandard(DMIS)
【原文标准名称】:工业自动系统与集成.实际设备控制.尺寸测量接口标准(DMIS)
【标准号】:ISO22093-2011
【标准状态】:现行
【国别】:国际
【发布日期】:2011-05-15
【实施或试行日期】:
【发布单位】:国际标准化组织(IX-ISO)
【起草单位】:ISO/TC184
【标准类型】:()
【标准水平】:()
【中文主题词】:
【英文主题词】:Automation;Automationsystems;Conformity;Coordinateaxis;Coordinatemetrology;Coordinatesystems;Definitions;Dimensionalmeasurement;Industrialprocessmeasurement;Interfaces;Machinetools;Machinery;Metrology;Numericalcontrol;Programming
【摘要】:ThisInternationalStandarddefinesaneutrallanguageforcommunicationbetweeninformationsystemsandDimensionalMeasurementEquipment(DME)calledtheDimensionalMeasuringInterfaceStandard(DMIS).DMISisanexecutionlanguageformeasurementpartprogramsandprovidesanexchangeformatformetrologydatasuchasfeatures,tolerances,andmeasurementresults.DMISconveystheproductandequipmentdefinitionsalongwiththeprocessandreportinginformationnecessarytoperformdimensionalmeasurementsthatemploycoordinatemetrology.DMIScontainsproductdefinitionsfornominalfeatures,featureconstructions,dimensionalandgeometrictolerances,functionaldatums,andpartcoordinatesystems.Italsocommunicatesequipmentdefinitionsforvariousmeasurementsensors,measurementresources,andmachineparameters.DMISinstructstheDME'smotionsandmeasurementsforproductacceptanceorverificationandformanufacturingprocessvalidationandcontrol.Furthermore,DMISguidestheanalysisofcoordinatedatatoreportandtagmeasurementresultsthatascertainproduct/processquality.Finally,toaidinitsimplementation,applicationfunctionalsubsetsofDMIShavebeendefinedthatensuresuccessfulinteroperabilityandtovalidateDMISconformance.Also,DMISaddressestheassociativityofDMISproductdefinitionswithCADinformation.Whileprimarilydesignedforcommunicationbetweenautomatedequipment,DMISisdesignedtobebothhumanreadableandhuman-writable,allowinginspectionprogramstobewrittenandinspectionresultstobeanalyzedwithouttheuseofcomputeraids.WiththeenhancementoftheHighLevelLanguageextensions,DMIScanfunctionandbeimplementedasacompleteDMElanguage.DMISprovidesthevocabularytopassinspectionprogramstodimensionalmeasuringequipmentandtopassmeasurementandprocessdatabacktoananalysis,collection,and/orarchivingsystem.Apieceofequipmentwhichinterfacestoothers,usingtheDMISvocabulary,maydosodirectlyoritmayhaveapre-processortoconvertitsownnativedataformatsintotheDMISformatand/orapostprocessortoconverttheDMISformatintoitsowndatastructure.AnenvironmentmakinguseoftheDMISinputandoutputformatsasadataexchangestandardisdepictedin(Figure1—DMISenvironment).Asillustrated,aninspectionprogramcanbecreatedbymanydifferentapproaches.InspectionprogramcreationcanbeassistedbyCADsystems,non-graphicalsystems,automatedsystems,orconstructedmanually.Aprogrammingsystemmayrequireapre-processorwhichconvertstheprogramintoDMISformat.ADMISinspectionprogramcanthenbeexecutedondissimilardimensionalmeasuringequipments.In(Figure1—DMISenvironment),DMEIhasaDMISpre-processorandpost-processorwhichconvertstheDMISdataintoitsownuniquedataformat.DMEIVisutilizingDMISasitsnativeformatandthereforenopre-processorsorpost-processorsarerequired.Also,ahostcomputerisbeingusedtocontrolDMEIIandDMEIII.Thehosthasapost-processorwhichdecodestheDMISprogramanddrivesthetwoDMEs,eitherthroughDMISformats,orthroughsomeuser-defineddataexchangeformat.ResultantdatamaybepassedbackinDMISformatthroughvariousscenarios.Forexample,thisdatacouldbepasseddirectlyasDMISorviaapost-processor.Resultantdataistypicallypassedtoananalysissystemand/orastoragesystemsuchasaQualityInformationSystem(QIS).ThemanualinterfaceindicatesthatDMISprogramscanbehandwritten,andresultsanalyzed,withouttheuseofcomputeraids.Inaddition,manyotherusesoftheDMISdataexchangeformatcouldbeapplied.
【中国标准分类号】:N18
【国际标准分类号】:25_040_40
【页数】:722P.;A4
【正文语种】:英语
