IEC 60799-1998 电气附件软线组件和互连软线组件
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来源:标准资料网
【英文标准名称】:Electricalaccessories-Cordsetsandinterconnectioncordsets
【原文标准名称】:电气附件软线组件和互连软线组件
【标准号】:IEC60799-1998
【标准状态】:现行
【国别】:国际
【发布日期】:1998-08
【实施或试行日期】:
【发布单位】:国际电工委员会(IX-IEC)
【起草单位】:IEC/SC23G
【标准类型】:()
【标准水平】:()
【中文主题词】:连接软线;电器用具软线;电气设备;电气工程;电力设备
【英文主题词】:Adapters;Appliancecords;Appliancecouplers;Applianceplugsockets;Connectingcords;Connectionlines;Continuous;Definitions;Electricappliances;Electriccables;Electricconnectors;Electricplugs;Electricsockets;Electricalcords;Electricalengineering;Electricalequipment;Electricalhouseholdappliances;Electricalinstallations;Householdequipment;Householduse;Mountingmaterials;Plug-and-socketconnection;Plugs;Polarity;Specification(approval)
【摘要】:ThisInternationalStandardspecifiesrequirementsforcordsetsandinterconnectioncordsetsforhouseholdandsimilargeneralpurposeequipment.Itdoesnotapplytocordsetsforindustrialpurposes(withplugsandconnectorsaccordingtoIEC60309)nortocordextensionsets.NOTE-Althoughelectricalsupplyflexesprovidedwithrewirableplugsandconnectorsarenotcordsetsinthesenseofthisstandard,butconsideredasbeingsimilartocordsetsandservingthesamepurpose,itisrecommendedtoapplytherequirementsasspecifiedinthisstandardtosuchassembliesaswellasfarasisreasonable.
【中国标准分类号】:K30
【国际标准分类号】:29_060_20
【页数】:19P.;A4
【正文语种】:英语
【英文标准名称】:StandardTestMethodforPigmentContentofWater-EmulsionPaintsbyLow-TemperatureAshing
【原文标准名称】:低温灰化法测定水性乳化涂料中颜料含量的标准试验方法
【标准号】:ASTMD3723-2005
【标准状态】:现行
【国别】:
【发布日期】:2005
【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】:D01.21
【标准类型】:(TestMethod)
【标准水平】:()
【中文主题词】:乳剂;颜料;覆层;涂漆;含量测定;低温;水;涂料;试验;颜色
【英文主题词】:low-temperatureashing;pigmentcontent;wateremulsionpaints
【摘要】:Thistestmethodisusedbypaintproducersandconsumersforproductprocesscontrolandforproductacceptance.1.1Thistestmethodcoversaprocedureforthepigmentcontentdeterminationofwater-basedpaints.Itisapplicableonlytopigmentsthatdonotdecomposeorloseweightattemperaturesbelow500C.Suchpigmentsincludemostmetaloxides,silicates,andamajorityofanhydrousinorganicsalts.1.2Manywater-basedpaintscontainpigmentsandorganiccolorantsthatlosewaterofhydrationordecomposeatthistemperature.Theresidualashshouldbecarefullyinspectedforchangesincolorortexturethatcouldindicateapigmentalterationandhenceleadtoerroneousresults.Cautionshouldthereforebeexercisedwhenapplyingthistestmethodtosamplescontainingunknownpigmentcompositions.1.3ThevaluesstatedinSIunitsaretoberegardedasthestandard.Thevaluesgiveninparenthesesareforinformationonly.Thisstandarddoesnotpurporttoaddressallofthesafetyconcerns,ifany,associatedwithitsuse.Itistheresponsibilityoftheuserofthisstandardtoestablishappropriatesafetyandhealthpracticesanddeterminetheapplicabilityofregulatorylimitationspriortouse.
【中国标准分类号】:G53
【国际标准分类号】:87_060_10
【页数】:2P.;A4
【正文语种】:
Product Code:SAE AIR5774
Title:Composite Fuel Tanks, Fuel System Design Considerations
Issuing Committee:Ae-5 Aerospace Fuel, Oil And Oxidizer Systems Committee
Scope: 1. SCOPEThis AIR is a compilation of engineering references and data useful to the technical community that can be used to ensure fuel system compatibility with composite structure. This AIR is not a complete detailed design guide and is not intended to satisfy all potential fuel system applications. Extensive research, design and development is required for each individual application. 1.1 PurposeThis document is intended to serve as guidance to airframe and equipment manufacturers for the design and installation of fuel systems into composite structure. This document is not intended to be a fully definitive specification, but concentrates on areas where it is felt guidance is needed. The purpose of this AIR is to compile one definitive source of the references, rules, regulations and preferred practices for the development of a fuel system in composite structure. This AIR sets forth some useful design considerations for work with composites as it relates to the fuel system.1.2 BackgroundThe development and installation of a fuel system in composite structure introduces a variety of design situations which are different from aluminium. The differences are related to the properties of the composite material. As an example these may include low electrical and thermal conductivity, greater design sensitivity to holes, reduced shielding from electromagnetic radiation, reduced conductivity of lightning and potential corrosion in graphite aluminum interfaces.1.3 Field of ApplicationThis AIR applies to the aerospace industry and specifically to aircraft that use common petroleum fuels.
Rationale: 1. SCOPEThis AIR is a compilation of engineering references and data useful to the technical community that can be used to ensure fuel system compatibility with composite structure. This AIR is not a complete detailed design guide and is not intended to satisfy all potential fuel system applications. Extensive research, design and development is required for each individual application. 1.1 PurposeThis document is intended to serve as guidance to airframe and equipment manufacturers for the design and installation of fuel systems into composite structure. This document is not intended to be a fully definitive specification, but concentrates on areas where it is felt guidance is needed. The purpose of this AIR is to compile one definitive source of the references, rules, regulations and preferred practices for the development of a fuel system in composite structure. This AIR sets forth some useful design considerations for work with composites as it relates to the fuel system.1.2 BackgroundThe development and installation of a fuel system in composite structure introduces a variety of design situations which are different from aluminium. The differences are related to the properties of the composite material. As an example these may include low electrical and thermal conductivity, greater design sensitivity to holes, reduced shielding from electromagnetic radiation, reduced conductivity of lightning and potential corrosion in graphite aluminum interfaces.1.3 Field of ApplicationThis AIR applies to the aerospace industry and specifically to aircraft that use common petroleum fuels.