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    ASTM B353-2012 Standard Specification for Wrought Zirconium and Zirconium Alloy Seamless and Welded Tubes for Nuclear Service (Except Nuclear Fuel Cladding)《核设施(核燃料包壳除外)用锻制锆及锆合金无缝与.pdf

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    ASTM B353-2012 Standard Specification for Wrought Zirconium and Zirconium Alloy Seamless and Welded Tubes for Nuclear Service (Except Nuclear Fuel Cladding)《核设施(核燃料包壳除外)用锻制锆及锆合金无缝与.pdf

    1、Designation: B353 12Standard Specification forWrought Zirconium and Zirconium Alloy Seamless andWelded Tubes for Nuclear Service (Except Nuclear FuelCladding)1This standard is issued under the fixed designation B353; the number immediately following the designation indicates the year oforiginal adop

    2、tion or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This specification covers seamless and welded wroughtzirconium and zirco

    3、nium-alloy tubes for nuclear application.Nuclear fuel cladding is covered in Specification B811.1.2 Five grades of reactor grade zirconium and zirconiumalloys suitable for nuclear application are described.1.2.1 The present UNS numbers designated for the fivegrades are given in Table 1.1.3 Unless a

    4、single unit is used, for example corrosion massgain in mg/dm2, the values stated in either inch-pound or SIunits are to be regarded separately as standard. The valuesstated in each system are not exact equivalents; therefore eachsystem must be used independently of the other. SI valuescannot be mixe

    5、d with inch-pound values.1.4 The following precautionary caveat pertains only to thetest method portions of this specification. This standard doesnot purport to address all of the safety concerns, if any,associated with its use. It is the responsibility of the user of thisstandard to establish appro

    6、priate safety and health practicesand determine the applicability of regulatory limitations priorto use.2. Referenced Documents2.1 ASTM Standards:2B350/B350M Specification for Zirconium and ZirconiumAlloy Ingots for Nuclear ApplicationB811 Specification for Wrought Zirconium Alloy SeamlessTubes for

    7、Nuclear Reactor Fuel CladdingE8 Test Methods for Tension Testing of Metallic MaterialsE21 Test Methods for ElevatedTemperatureTensionTests ofMetallic MaterialsE29 Practice for Using Significant Digits in Test Data toDetermine Conformance with SpecificationsE112 Test Methods for Determining Average G

    8、rain SizeG2/G2M Test Method for Corrosion Testing of Products ofZirconium, Hafnium, and Their Alloys in Water at 680F360C or in Steam at 750F 400C3. Terminology3.1 Definitions of Terms Specific to This Standard:3.1.1 dimensions, ntube dimensions are outside diameter,inside diameter, and wall thickne

    9、ss. Only two of these param-eters may be specified in addition to length, except minimumwall may be specified with outside and inside diameter. In eachcase, ovality and wall thickness variation (WTV) may bespecified as additional requirements (see 3.1.5 and 3.1.6).3.1.2 hydride orientation fraction,

    10、 Fn, nthe ratio of hy-dride platelets oriented in the radial direction to the totalhydride platelets in the field examined.3.1.3 Lot Definitions:3.1.3.1 tubes, na lot shall consist of a material of the samesize, shape, condition, and finish produced from the same ingotor powder blend by the same red

    11、uction schedule and the sameheat treatment parameters. Unless otherwise agreed betweenmanufacturer and purchaser, a lot shall be limited to theproduct of an 8 h period for final continuous anneal, or to asingle furnace load for final batch anneal.3.1.4 mill finish tubes, ntubes that have received al

    12、lfinishing operations subsequent to final anneal, which poten-tially affects tube mechanical, dimensional, or surface condi-tion. These operations include, but are not limited to, pickling,cleaning, outer and inner surface abrasive conditioning, andstraightening.3.1.5 ovality, nthe difference betwee

    13、n the maximum andminimum diameter, either outer or inner, as determined at anyone transverse cross section of the tube.3.1.6 wall thickness variation (WTV), nthe differencebetween maximum and minimum wall thickness measured atany one transverse cross section of the tube.3.1.6.1 DiscussionMeasurement

    14、 of ovality and WTV1This specification is under the jurisdiction of ASTM Committee B10 onReactive and Refractory Metals and Alloys and is the direct responsibility ofSubcommittee B10.02 on Zirconium and Hafnium.Current edition approved Nov. 1, 2012. Published January 2013. Originallyapproved in 1960

    15、. Last previous edition approved in 2007 as B353 07. DOI:10.1520/B0353-12.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe

    16、ASTM website.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States1made by a helical scan with a pitch not exceeding 0.25 in. (6.5mm) shall be considered as equivalent to “at any one crosssection of the tube.”3.1.7 recrystallized, nfully an

    17、nealed condition.3.1.8 stress relieved, nannealed to remove residualstresses without recrystallization.4. Ordering Information4.1 Purchase orders for material covered in this specifica-tion should include the following information to describeadequately the desired material:4.1.1 Quantity,4.1.2 Grade

    18、 (see Table 1), and UNS Number,4.1.3 Condition (recrystallized or stress relieved) (Section6),4.1.4 Dimensions, length, and tolerance (see Table 2 withNotes),4.1.5 Method of manufacture (seamless or welded) (Section5),4.1.6 ASTM designation and year of issue,4.1.7 Surface finish on the inside (ID) a

    19、nd the outside (OD)surfaces (Ra (in micro-inches or micrometres), unless other-wise stated) (6.3),4.1.8 Surface condition on the inside (ID) and outside (OD)surfaces (as pickled, abraded, etc.), and ends (as-saw cut,machined/chamfered, sheared, etc.) (6.2), and4.1.9 Mutually agreed-upon inspection s

    20、tandards in accor-dance with 9.2, 10.2, 10.4, 10.5, 11.1.1.2, 11.1.2.2, and11.1.2.3.NOTE 1A typical order description may read as follows: 1000 piecesof seamless zirconium-tin alloy tube OD abraded and ID pickled, GradeR60804, recrystallized,34 in. outside diameter by 0.035 in. wall by 10-ftlengths

    21、in accordance withASTM B353-07. Surface finish to be_ OD, _ID.4.2 In addition to the information in 4.1, the followingpoints of agreement between the manufacturer and purchasershould be specified in the purchase order as required:4.2.1 Filler metal requirements for welded tubes (Paragraph5.4),4.2.2

    22、Oxygen concentration limits in R60001, R60802,R60804, and R60904 (Section 7),4.2.3 Specimen temperature(s) during mechanical testing(Section 8 and Table 3, Footnote C),4.2.4 Method of determining yield strength if other than0.2 % offset method (Section 8),4.2.5 Tensile property requirements for cond

    23、itions or tem-peratures not listed in Table 3 (Section 8),4.2.6 Location of the inside diameter plugs in elevatedtemperature short-time tension test, (see Table 3, Footnote D,and Paragraph 8.1.3),4.2.7 Burst properties (Paragraph 8.2),4.2.8 Post burst test measurement technique (Annex A1),4.2.9 Samp

    24、le condition and visual standards for corrosiontest (Section 10),4.2.10 Hydride orientation test procedure, measurementtechnique, magnification of photomicrograph, and limitingvalues for Fn (Section 12 and Annex A2),4.2.11 For hydride orientation, angle theta () for determin-ing radial platelets (Se

    25、ction 12 and Annex A2).4.2.12 General test requirements and test plan for samples(Section 14),TABLE 1 ASTM and UNS Number Designations for Reactor GradeZirconium and Zirconium AlloysGrade UNS NumberReactor-grade zirconium R60001Zirconium-tin alloy R60802Zirconium-tin alloy R60804Zirconium-niobium al

    26、loy R60901Zirconium-niobium alloy R60904TABLE 2 Permissible Variations in Diameter, Wall Thickness, and Ovality Measured at Any LocationNOTE 1The tolerances in this table are applicable to only two of the three following dimensions: outside diameter, inside diameter, and wall thickness.NOTE 2The man

    27、ufacturer should be consulted for applicable tolerances in small tubes (less than 0.187 in. (5 mm) in diameter) or tubes with wallthickness less than 0.010 in. (0.25 mm).NOTE 3A wider variation of 12.5 % of wall thickness is permitted for extra-thick walled tubes having wall thicknesses of 0.75 in.

    28、(19 mm) (orgreater) or inside diameter 60 % (or less) of the outside diameter.NOTE 4Ovality is the difference between maximum and minimum outside diameters measured at any one cross section.NOTE 5In tubes with nominal wall thickness less than3%ofnominal outside diameter, the ovality tolerance is twi

    29、ce the tolerance shown for outsideor inside diameter (columns 3 and 4), but the average outside or inside diameter must fall within the tolerance given in columns 3 and 4 of the table.NOTE 6The manufacturer should be consulted for ovality tolerances in tubes with wall thickness less than 2 % of nomi

    30、nal outside diameter.Nominal Outside DiameterVariation in Diameter Outside orInsideOvality See Note 5 Variation inWall Thicknessin. mm in. mm in. mm %0.1870.625, excl 516, excl 0.002 0.05 0.004 0.10 100.6251.000, excl 1625, excl 0.0025 0.06 0.005 0.12 101.0002.000, excl 2550, excl 0.004 0.10 0.008 0

    31、.20 102.0003.000, excl 5075, excl 0.005 0.13 0.010 0.26 103.0004.000, excl 75100, excl 0.007 0.18 0.014 0.36 104.0005.000, excl 100125, excl 0.010 0.25 0.020 0.50 105.0006.000, excl 125150, excl 0.015 0.40 0.030 0.80 106.0008.000, excl 150200, excl 0.020 0.50 0.040 1.00 10B353 1224.2.13 Hydrostatic

    32、test requirements (Section 13),4.2.14 Contractile strain ratio acceptance criteria (Paragraph8.3 and Annex A4),4.2.15 Retest sampling plan and requirements (Section 15),4.2.16 Quantity variance (Section 17),4.2.17 Certificate of test (Section 19), and4.2.18 Special packing instructions (Section 20).

    33、5. Materials and Manufacture5.1 Material covered by this specification shall be madefrom ingots produced by multiple vacuum arc melting, electronbeam melting or other melting processes conventionally usedfor reactive metals; all melting is to be carried out in furnacesusually used for reactive metal

    34、s.5.2 The tubes shall be made by a process approved by thepurchaser.5.3 Seamless tubes may be made by any method that willyield a seamless product that meets the requirements of thisspecification. One such method is extrusion of billets withsubsequent cold working, by drawing, swaging, or rocking,wi

    35、th intermediate anneals until the final dimensions arereached.5.4 Unless otherwise agreed upon between the manufacturerand purchaser, welded tubing shall be made from flat-rolledproducts by an automatic or semiautomatic welding processwith no addition of filler metal in the welding operation. Otherm

    36、ethods of welding, such as the addition of filler metal or handwelding, may be employed if approved by the purchaser andtested by methods agreed upon between the manufacturer andthe purchaser. If filler wire is used, it must meet the chemicalrequirements of the appropriate grade as shown in Table 4.

    37、Welded tube is normally cold reduced to the desired dimen-sions by such methods as drawing, swaging, or rocking. Themanufacturer must prevent contamination during welding byuse of proper precautions.6. Condition and Finish6.1 Metallurgical Condition:6.1.1 Grade R60001 product shall be in the recryst

    38、allizedcondition unless otherwise specified in the purchase order.6.1.2 Grades R60802, R60804, R60901, and R60904 prod-uct can be furnished in the recrystallized condition or cold-worked and stress-relieved condition, as specified in thepurchase order.6.2 Tubes shall be furnished with one of the fol

    39、lowingfinishes as designated in the purchase order:6.2.1 As cold reduced,6.2.2 Pickled,6.2.3 Ground, or6.2.4 Polished.6.2.5 Ends (saw cut, machined/chamfered, sheared).6.3 The surface finish of the inside and outside surfaces ofthe tubes shall be as specified in the purchase order.7. Chemical Compos

    40、ition7.1 The material shall conform to the requirements forchemical composition prescribed in Table 4. The purchasershall specify the grade desired.7.2 Analysis shall be made using standard methods. In theevent of disagreement as to the chemical composition of themetal, methods of chemical analysis

    41、for referee purposes shallbe determined by a mutually acceptable laboratory.7.3 The ingot analysis made in accordance with Specifica-tion B350/B350M shall be considered the chemical analysis formaterial produced to this specification except for oxygen,hydrogen, and nitrogen content which shall be de

    42、termined onTABLE 3 Minimum Tensile Properties of Tubing Tested in the Longitudinal DirectionA,B,C,D,E,FMaterial ConditionTest TemperatureC,FMinimum Ultimate Tensile Strength Minimum 0.2 % Yield StrengthMinimumElongation, %F (C) psi (MPa) psi (MPa)R60001 RT RT 42 000 (290) 20 000 (140) 25Recrystalliz

    43、ed 572 (300)BB B B BR60802, R60804 RT RT 60 000 (415) 35 000 (240) 20Recrystallized 572 (300)R60802, R60804 RT (RT)BB B B BCold-worked and Stress-relieved 572 (300)R60901, R60904 RT (RT) 65 000 (450) 45 000 (310) 20Recrystallized 572 (300)BB B B BR60901, R60904 RT (RT) 103 000 (710) 70 000 (485) 12C

    44、old-worked and Stress-relieved 572 (300) 69 500 (480) 48 000 (330) 12AThe strength of zirconium alloys is a function of their metallurgical condition, alloy content, and impurity level, especially oxygen. The strength values listed above arefor alloys that contain oxygen concentrations in the range

    45、900 to 1400 ppm. For alloys with other oxygen concentrations, the tensile properties are to be agreed uponbetween the manufacturer and the purchaser.BTo be agreed upon between the manufacturer and the purchaser.CThe tensile test is to be carried out at one or more of the temperatures listed in Table

    46、 3 (or at another temperature) as agreed upon between the manufacturer andpurchaser. If one of the above temperatures is selected, the minimum properties shall be as listed for that temperature. If a different temperature is selected, the minimumproperties shall be agreed upon between the manufactur

    47、er and purchaser.DParagraph 6.9.1 in Test Methods E8 allows small diameter tubes to be tested as full size tubular sections with snug-fitting metal plugs inserted into the ends of the tubeto permit proper gripping by the test machine jaws, as shown in Fig. 11 in Test Methods E8. Specimens for the te

    48、sting of large diameter tubes are cut from the wall of thetube and are to satisfy the requirements of Figs. 12 and 13 in Test Methods E8.EThe properties in this table apply to tubes 0.125 in. (3.2 mm) outside diameter and larger, and 0.015 in. (0.38 mm) wall and thicker. Mechanical properties of tub

    49、es outsidethese limits are to be agreed upon between the manufacturer and purchaser.F“RT” represents room temperature; Note 4 in Test Methods E8 and E8M indicates that RT shall be considered to be 50 to 100F (10 to 38C) unless otherwise specified.Paragraph 9.4.4 in Test Methods E21 states that for the duration of the test, the difference between the indicated temperature and the nominal test temperature is not toexceed 5F (3C) for tests at 1800F (1000C) and lower, and 10F (6C) for tests at higher temper


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