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本文(ASTM E1652-2015 Standard Specification for Magnesium Oxide and Aluminum Oxide Powder and Crushable Insulators Used in the Manufacture of Base Metal Thermocouples Metal-Sheathed Plae.pdf)为本站会员(吴艺期)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ASTM E1652-2015 Standard Specification for Magnesium Oxide and Aluminum Oxide Powder and Crushable Insulators Used in the Manufacture of Base Metal Thermocouples Metal-Sheathed Plae.pdf

1、Designation: E1652 15Standard Specification forMagnesium Oxide and Aluminum Oxide Powder andCrushable Insulators Used in the Manufacture of Base MetalThermocouples, Metal-Sheathed Platinum ResistanceThermometers, and Noble Metal Thermocouples1This standard is issued under the fixed designation E1652

2、; the number immediately following the designation indicates the year oforiginal adoption 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

3、.1. Scope1.1 This specification covers the requirements for magne-sium oxide (MgO) and aluminum oxide (Al2O3) powders andcrushable insulators used to manufacture base metalthermocouples, metal-sheathed platinum resistance thermom-eters (PRTs), noble metal thermocouples, and their respectivecables.1.

4、2 The values stated in SI units are to be regarded as thestandard. The values given in parentheses are for informationonly.1.3 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to establish appro

5、-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2B329 Test Method for Apparent Density of Metal Powdersand Compounds Using the Scott VolumeterC809 Test Methods for Chemical, Mass Spectrometric, andS

6、pectrochemical Analysis of Nuclear-Grade AluminumOxide and AluminumOxide-Boron Carbide CompositePelletsC832 Test Method of Measuring Thermal Expansion andCreep of Refractories Under LoadD2766 Test Method for Specific Heat of Liquids and SolidsE228 Test Method for Linear Thermal Expansion of SolidMat

7、erials With a Push-Rod DilatometerE235 Specification for Thermocouples, Sheathed, Type Kand Type N, for Nuclear or for Other High-ReliabilityApplicationsE344 Terminology Relating to Thermometry and Hydrom-etryE585/E585M Specification for Compacted Mineral-Insulated, Metal-Sheathed, Base Metal Thermo

8、coupleCableE1137/E1137M Specification for Industrial Platinum Resis-tance ThermometersE1225 Test Method for Thermal Conductivity of SolidsUsing the Guarded-Comparative-Longitudinal Heat FlowTechniqueE2181/E2181M Specification for Compacted Mineral-Insulated, Metal-Sheathed, Noble Metal Thermocouples

9、and Thermocouple Cable3. Terminology3.1 The definitions given in Terminology E344 shall applyto this specification.4. Significance and Use4.1 Magnesium oxide and aluminum oxide are used toelectrically isolate and mechanically support the thermoele-ments of a thermocouple (see Specifications E235, E5

10、85/E585M, and E2181/E2181M) and the connecting wires of aPRT (see Specification E1137/E1137M) within a metal sheath.The metal sheath is typically reduced in diameter to compactthe oxide powder or crushable oxide insulators around thethermoelements or wires.4.2 In order to be suitable for this purpos

11、e, the materialsshall meet certain criteria for purity and for mechanical anddimensional characteristics. Material that does not meet thepurity criteria may cause premature failure of the sensor.4.3 Use of this specification for the procurement of powderand crushable insulators will help to ensure t

12、hat the productobtained is suitable for the intended purpose.4.4 Useful information about alumina and magnesia is givenin the appendixes.1This specification is under the jurisdiction of ASTM Committee E20 onTemperature Measurement and is the direct responsibility of Subcommittee E20.04on Thermocoupl

13、es.Current edition approved Nov. 1, 2015. Published November 2015. Originallyapproved in 1995. Last previous edition approved in 2014 as E1652 14a. DOI:10.1520/E1652-15.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annua

14、l Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States15. Classification5.1 The purchaser shall specify the appropriate Material andT

15、ype from 5.2 through 5.6 below.5.2 MgO Type 1 in accordance with Table 1.5.3 Al2O3Type 1 in accordance with Table 1.5.4 MgO Type 1P in accordance with Table 2.5.5 Al2O3Type 1P in accordance with Table 2.5.6 MgO Type 2 in accordance with Table 3.NOTE 1There is no corresponding Al2O3Type 2 designation

16、 at thistime.5.7 The final product shall be chemically analyzed usingappropriate methods listed in 9.1. Major impurities shall notexceed the limits indicated in Table 1 through Table 3 for theappropriate grade. Any detected impurity with a concentrationgreater than 0.001 % (mass) shall be reported t

17、o the purchaser.6. Ordering Information6.1 The purchaser shall specify the following when order-ing:6.1.1 Material and Type in accordance with Section 5.6.1.2 Insulator Outside Diameter.6.1.3 Hole Diameter.6.1.4 Number of Holes.6.1.5 Hole Pattern.6.1.6 Length.6.1.7 Particle Size (if supplied as powd

18、er).6.2 The purchaser may specify the following additionalinformation when ordering:6.2.1 Minimum Inside Diameter (at Maximum MaterialCondition (MMC) of the Tubing, (into which insulators will beinserted, see 8.3).6.2.2 Maximum Outside Diameter of Wire which will beinserted into the insulators, (see

19、 8.3).6.3 Consult the insulator manufacturer for limitations ofrelationships between outside diameter, hole diameters, holepatterns, and length.7. Physical Properties7.1 DensityThe density of crushable magnesium oxideand aluminum oxide insulators typically ranges from 2060kg/m3(0.074 lbm/in.3) to 30

20、60 kg/m3(0.111 lbm/in.3).Specific density requirements, as well as the test method to beused to determine density, shall be negotiated between thepurchaser and manufacturer. See Appendix X3 for suggestedtest methods.7.2 Modulus of Rupture (MOR)In the past, a breakingforce test that is based on a rel

21、ative modulus of rupture and isrelated to crushability has been used. However, with variationsin modulus from 21 to 83 MPa (3000 to 12 000 lb/in.2)influenced by insulator configuration, number of holes, andcross-sectional dimensions, specific modulus requirementscannot be listed for each configurati

22、on. The modulus of ruptureis best used for lot-to-lot comparison of a given insulator sizeand configuration. See Appendix X4 for a suggested testmethod and X2.4 for recommended tolerances.8. Dimensional Requirements8.1 Outside diameter and hole diameter tolerances for insu-lators shall be as specifi

23、ed in Table 4 and Table 5, respectively,unless otherwise agreed to between the purchaser and manu-facturer.8.2 The wall and web thicknesses (see Fig. 1) shall be equalwithin outside the total allowable outside diameter tolerance asTABLE 1 Chemical Requirements for Al2O3Type 1and MgO Type 1A, BAlumin

24、um Oxide (Al2O3) Magnesium Oxide (MgO)ImpurityConcentration,% (mass)ImpurityConcentration,% (mass)Al2O399.65 % min MgO 99.40 % minCaO 0.08 max CaO 0.35 maxSiO20.08 maxBSiO20.35 maxBMgO 0.08 max Al2O30.15 maxFe2O30.04 max Fe2O30.07 maxZrO20.08 maxNa2O 0.06 maxC 0.01 max C 0.02 maxS 0.005 max S 0.0025

25、 maxB 0.001 max B 0.0035 maxCd 0.001 max Cd 0.001 maxB+Cd 0.004 maxAPlatinum thermoelements and Noble Metal thermocouples for use above 650Cshall specify Type 1P composition according to Table 2.BBase metal thermocouples for nuclear environments in accordance with Speci-fication E235 shall specify T

26、ype 1P composition according to Table 2.TABLE 2 Chemical Requirements for Al2O3Type 1Pand MgO Type 1PAAluminum Oxide (Al2O3) 99.65 %(mass) minMagnesium Oxide (MgO) 99.40 %(mass) minImpurityConcentration,% (mass) ImpurityConcentration,% (mass)Al2O399.65 % min MgO 99.40 % minCaO 0.08 max CaO 0.35 maxS

27、iO20.08 max SiO20.13 maxMgO 0.08 max Al2O30.15 maxFe2O30.04 max Fe2O30.04 maxZrO20.08 maxNa2O 0.06 maxC 0.01 max C 0.02 maxS 0.005 max S 0.0025 maxB 0.08 max B 0.0035 maxCd 0.08 max Cd 0.001 maxB+Cd 0.004 maxAPlatinum thermoelements and noble Metal thermocouples for use below 650Cmay optionally spec

28、ify Type 1 composition according to Table 1.TABLE 3 Chemical Requirements for MgO Type 2Magnesium Oxide (MgO)Impurity Concentration, % (mass)MgO 97.00 % minCaO 1.50 maxAl2O31.00 maxSiO23.00 maxFe2O30.15 maxC 0.02 maxS 0.0025 maxB 0.0050 maxCd 0.001 maxB + Cd 0.0050 maxMgO + CaO + Al2O3+SiO299.50 min

29、E1652 152specified in Table 5 and the minimum measured web or wallshall be no smaller than 75 % of the maximum measured webor wall, unless otherwise agreed to between the purchaser andmanufacturer.8.3 The camber shall not exceed 0.3 % of the length. Theinsulator shall be capable of passing through a

30、 rigid straighttube longer than the insulator and with an inside diameter asspecified in 6.2.1. Local camber defects caused by “knees“ or“doglegs“ shall not impede the insertion of wire.8.4 The helical twist of holes shall not exceed 2 per cm (5per in.) of the length.8.5 The length shall be as speci

31、fied in 6.1.6 with a toleranceof +60.00 mm ( +0.250.00 in.).8.6 The ends of each insulator should be cut square andshall be essentially chip-free as agreed upon between thesupplier and purchaser.9. Test Methods9.1 Chemical Composition:9.1.1 Wet chemical analysis, or fusion calorimetric analysis,or b

32、oth, can be used for quantitative determination of silicondioxide (SiO2), iron oxide (Fe2O3), and zirconium oxide(ZrO2) with gravimetric determination for SiO2and Fe2O3.The SiO2filtrate can be used for further calcium oxide (CaO)determination.9.1.2 Test Method C809 can be used for quantitative analy

33、-sis of elemental impurities.9.1.3 Any method used for quantitative determinationshould have a detection sensitivity of at least 0.001 % (mass).9.2 Density (Powder)Test Method B329 can be used fordetermining the density of Al2O3and MgO powders.9.3 Appendix X5 lists other optional test methods.10. Ha

34、ndling and Storage Precautions10.1 Powders and crushable insulators shall be shipped andstored in containers that prevent contamination and breakage.Powders and crushable insulators should be stored in sealedcontainers to prevent contamination by moisture absorption.(See Appendix X2.)11. Keywords11.

35、1 aluminum oxide; crushable; insulator; magnesium ox-ide; mineral-insulated, metal-sheathed cable; platinum resis-tance thermometer; thermocouple, base metal; thermocouple,noble metalTABLE 4 Outside Diameter (O.D.) TolerancesNominal Insulator O.D. O.D. ToleranceOver 0.25 to 1.00 mm (0.010 to 0.039 i

36、n.),inclusive0.05 mm (0.002 in.)Over 1.00 to 1.50 mm (0.039 to 0.059 in.),inclusive0.08 mm (0.003 in.)Over 1.50 to 5.00 mm (0.059 to 0.197 in.),inclusive0.10 mm (0.004 in.)Over 5.00 to 8.00 mm (0.197 to 0.315 in.),inclusive0.13 mm (0.005 in.)Over 8.00 to 10.00 mm (0.315 to 0.394 in.),inclusive0.15 m

37、m (0.006 in.)Over 10.0 mm (0.394 in.) 1.75%TABLE 5 Hole Diameter ToleranceANominal Insulator Hole Diameter Hole Diameter ToleranceOver 0.18 to 1.00 mm (0.007 to 0.039 in.),inclusive0.05 mm (0.002 in.)Over 1.00 to 2.00 mm (0.040 to 0.079 in.),inclusive0.08 mm (0.003 in.)Over 2.00 to 2.50 mm (0.079 to

38、 0.098 in.),inclusive0.10 mm (0.004 in.)Over 2.50 mm (0.098 in.) and larger,inclusive05 %ASee X2.3 for recommended inspection procedure.FIG. 1 Wall and Web ThicknessesE1652 153APPENDIXES(Nonmandatory Information)X1. MATERIALS AND MANUFACTUREX1.1 Alumina (Al2O3)X1.1.1 Sources:X1.1.1.1 Bauxite is the

39、principal source of alumina.Gibbsite, Al(OH)3, is the most stable phase. Boehmite,AlO(OH), also occurs in nature. High grade bauxite is low iniron and silica content. The major use of purified alumina is inthe production of aluminum metal.X1.1.1.2 Depending upon the application, the economics,and th

40、e purity of the bauxite, the purification process could bewet alkaline, wet acid, alkaline furnace, carbothermic furnace,or electrolytic processes.X1.1.1.3 The wet alkaline processes are the most economi-cal. Gibbsite bauxite is easier to dissolve. It is digested insodium hydroxide (NaOH) solution a

41、t about 150C (302F) at345 kPa (50 lb/in.2). Boehmitic bauxite, AlO(OH), is moredifficult to dissolve. It requires a higher concentration of NaOHsolution, a pressure of 1930 to 4826 kPa (280 to 700 lb/in.2),and a temperature of about 238C (545F).X1.1.1.4 When digested, the slurry is cooled to about 1

42、00C(212F) by releasing pressure to atmospheric, and the undis-solved “mud” is sedimented or filtered off. When cooled toabout 50C (122F) and seeded with alumina-trihydrate, pre-cipitation occurs. The precipitated trihydrate is washed andthen calcinated. The trihydrate dehydrates slowly. At atmo-sphe

43、ric pressures, the dehydration process involves two steps.X1.1.1.5 The trihydrate dehydrates first to a compositionclose to boehmite (Al2O3H2O). Even at 200C (392F) the rateof dehydration is very slow. Dehydration is essentially com-plete at 400C (752F) in an oven at below atmosphericpressure or at

44、500C (932F) at atmospheric pressure. In onestudy, the heating at 538C (1000F) for 7 h still resulted in 0.1moles of H2O per mole Al2O3, that is, about 2 %. Differentialthermal analysis (DTA) studies show endothermic effects at225, 300, and 550C (437, 572, and 1022F, respectively). Thepeak at 550C (1

45、022F) represents the dehydration of boeh-mite.X1.1.1.6 Activated alumina is a desiccant and is more easilyrehydrated when activated in vacuum. Alumina activated invacuum at 180 to 200C (356 to 392F) and then heated in airat about 350 to 450C (662 to 842F) does not rehydrate aseasily. No rehydration

46、was found with alpha alumina of lowsurface area.To achieve low surface area the alumina should beheated to at least 1700C (3092F). Alumina is sintered atabout 1700 to 2000C (3092 to 3632F). It melts around2050C (3722F).X1.1.2 Typical Crystal Properties :X1.1.2.1 Coeffcient of Thermal Expansion6to910

47、6/K (3.3 to 5 106/F) between 20 and 1000C (68and 1832F).X1.1.2.2 Crystal Shape Hexagonal.X1.1.2.3 Maximum Theoretical Density3.98 103kg/m3(0.144 lbm/in3).X1.1.2.4 Dielectric Strength5600 kV/m (142 000 V/in).X1.1.2.5 Hardness (MOHS)9.X1.1.2.6 Softening Temperature1750C (3182F).X1.1.2.7 Melting Temper

48、ature2050C (3722F).X1.1.2.8 Molecular Weight101.94.X1.1.2.9 Typical Electrical ResistivitySee Table X1.1.X1.1.2.10 Specific Heat 8.8102J/kgK 20C (0.21Btu/lbm F 68F). 1.2 103J/kgK 1000C (0.28Btu/lbm F 1832F).X1.1.2.11 Typical Thermal Conductivity See Table X1.2.X1.1.2.12 Macroscopic Thermal Neutron A

49、bsorption CrossSection1.0 m1(0.03 in1).X1.2 Magnesia (MgO)X1.2.1 Sources:X1.2.1.1 Magnesia can be made by the oxidation of mag-nesium metal or by heating easily decomposed oxy-compoundsof magnesium, such as the hydroxide, Mg(OH)2, the oxalate,MgC2O4, or the naturally occurring carbonate (magnesite),MgCO3. Mg(OH)2exists as the mineral brucite in smallamounts; however the principal commercial source of magne-sia is magnesite, which occurs in a relatively pure state in manypar

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