1、Designation:D5144081Standard Guide forUse of Protective Coating Standards in Nuclear PowerPlants1This standard is issued under the fixed designation D5144;the number immediately following the designation indicates the year oforiginal adoption or,in the case of revision,the year of last revision.A nu
2、mber in parentheses indicates the year of last reapproval.Asuperscript epsilon()indicates an editorial change since the last revision or reapproval.1NOTEThe title of Guide D5163 was corrected editorially in April 2009.INTRODUCTIONProtective coatings(paints)have been used extensively in the nuclear i
3、ndustry to protect thesurfaces of facilities and equipment from corrosion and contamination by radioactive nuclides inaccordance with ALARA.In the absence of a standard method of selecting,testing,and evaluatingcoatings,many sites evaluated paints by empirical tests to determine which were useful in
4、 theirparticular operation.Understandably,the methods of testing were not uniform throughout the industry.It has been very difficult,consequently,to compare the results obtained at one site with those obtainedat another.Standard tests whereby industrial(nuclear)users of paints systematically prepare
5、specimens and subject them to selected evaluations,thus permitting uniform comparisons,areadvantageous,internationally as well as domestically.The designer of light water-moderated nuclear reactor systems must consider the possibility of aDesign Basis Accident(DBA)and the subsequent events which mig
6、ht lead to the release or expulsionof a fraction of the fission-product inventory of the core to the reactor containment facility.Engineeredsafety features,principally a reactor containment facility,are provided to prevent the release of fissionproducts to the biological environment during and after
7、 this improbable event.The design,fabrication,quality assurance,and testing of these engineered safety features ensure reliable operation and safetyunder all anticipated conditions.Large areas of the reactor-containment facility are painted with safety-related coatings.If severedelamination,peeling,
8、or flaking causes significant portions of the coating to be discharged into thecommon water reservoir,the performance of the safety systems could be seriously compromised bythe plugging of strainers,flow lines,pumps,spray nozzles,and core coolant channels.Safety-relatedcoatings may also exist outsid
9、e of the reactor-containment.This guide is the result of a comprehensive examination of the experience and data that have beendeveloped on protective coatings in the nuclear industry over approximately 40 years.Standardspertaining to nuclear coatings have historically been covered by ANSI N5.12,ANSI
10、 N101.2,andANSI N101.4.Responsibility for updating,rewriting,and issuing appropriate ANSI replacementstandards has been transferred to ASTM,specifically ASTM Committee D33,on Protective Coatingand Lining Work for Power Generation Facilities.The objective of this guide is to provide a common basis on
11、 which protective coatings for thesurfaces of nuclear power generating facilities may be qualified and selected by reproducibleevaluation tests.This guide also provides guidance for application and maintenance of protectivecoatings.Quality assurance in the nuclear industry is a mandatory requirement
12、 for all aspects ofsafety-related nuclear coatings work.Licensees of nuclear power plants are required to determine ifcoated surfaces are within the scope of 10CFR50.65,“The Maintenance Rule.”Any coated surfacesfound to be within the scope of 10CFR50.65 must satisfy the requirements of 10CFR50.65.AS
13、MESection XI,Subsection IWE contains the requirements for periodic evaluation of the reactor-containment steel pressure boundary.Copyright ASTM International,100 Barr Harbor Drive,PO Box C700,West Conshohocken,PA 19428-2959.United States1 1.Scope1.1 This guide provides a common basis on which protec
14、-tive coatings for the surfaces of nuclear power generatingfacilities may be qualified and selected by reproducible evalu-ation tests.This guide also provides guidance for applicationand maintenance of protective coatings.Under the environ-mental operating and accident conditions of nuclear powergen
15、eration facilities,encompassing pressurized water reactors(PWRs)and boiling water reactors(BWRs),coating perfor-mance may be affected by exposure to any one,all,or acombination of the following conditions:ionizing radiation;contamination by radioactive nuclides and subsequent decon-tamination proces
16、ses;chemical and water sprays;high-temperature high-pressure steam;and abrasion or wear.1.2 The content of this guide includes:SectionReferenced Documents2Terminology3Significance and Use4Coating Material Testing5Thermal Conductivity5Surface Preparation,Coating Application,and Inspection forShop and Field Work6Quality Assurance7Keywords81.2.1 In addition,this guide addresses technical topicswithin ANSI N5.12 and ANSI N101.2 that are covered byseparate ASTM standards,for example,surface preparati