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本文(ASTM D5900-2015c red 2903 Standard Specification for Physical and Chemical Properties of Industry Reference Materials (IRM)《工业参考材料 (IRM) 的物理和化学性能的标准规格》.pdf)为本站会员(tireattitude366)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 D5900-2015c red 2903 Standard Specification for Physical and Chemical Properties of Industry Reference Materials (IRM)《工业参考材料 (IRM) 的物理和化学性能的标准规格》.pdf

1、Designation: D5900 15bD5900 15cStandard Specification forPhysical and Chemical Properties of Industry ReferenceMaterials (IRM)1This standard is issued under the fixed designation D5900; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revisio

2、n, 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 the chemical and physical quality specifications or requirements, or both, fo

3、r Industry ReferenceMaterials (IRMs) as cited in Practice D4678 and other standards.1.2 IRMs, as evaluated and referenced in Practice D4678, are vitally important to conduct product, specification, anddevelopment testing in the rubber and carbon black industries.1.3 Before a new lot of material can

4、be accepted as an IRM, it must comply with the specifications prescribed in thisspecification. However, these specifications are only part of the requirements. Other requirements as given in Practice D4678 shallbe met before a candidate material can be formally accepted as an IRM.1.4 The values stat

5、ed in SI units are to be regarded as standard. No other units of measurement are included in this standard.1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibilityof the user of this standard to establish appropriate safety a

6、nd health practices and determine the applicability of regulatorylimitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D88 Test Method for Saybolt ViscosityD92 Test Method for Flash and Fire Points by Cleveland Open Cup TesterD97 Test Method for Pour Point of Petroleum ProductsD280 Tes

7、t Methods for Hygroscopic Moisture (and Other Matter Volatile Under the Test Conditions) in PigmentsD287 Test Method for API Gravity of Crude Petroleum and Petroleum Products (Hydrometer Method)D445 Test Method for Kinematic Viscosity of Transparent and Opaque Liquids (and Calculation of Dynamic Vis

8、cosity)D611 Test Methods for Aniline Point and Mixed Aniline Point of Petroleum Products and Hydrocarbon SolventsD1278 Test Methods for Rubber from Natural SourcesChemical AnalysisD1416 Test Methods for Rubber from Synthetic SourcesChemical Analysis (Withdrawn 1996)3D1500 Test Method for ASTM Color

9、of Petroleum Products (ASTM Color Scale)D1519 Test Methods for Rubber ChemicalsDetermination of Melting RangeD1646 Test Methods for RubberViscosity, Stress Relaxation, and Pre-Vulcanization Characteristics (Mooney Viscometer)D1747 Test Method for Refractive Index of Viscous MaterialsD1951 Test Metho

10、d for Ash in Drying Oils and Fatty Acids (Withdrawn 2003)3D1959 Test Method for Iodine Value of Drying Oils and Fatty Acids (Withdrawn 2006)3D1960 Test Method for Loss on Heating of Drying Oils (Withdrawn 2003)3D1965 Test Method for Unsaponifiable Matter in Drying Oils, Fatty Acids, and Polymerized

11、Fatty Acids (Withdrawn 2007)3D1980 Test Method for Acid Value of Fatty Acids and Polymerized Fatty Acids (Withdrawn 2007)3D1982 Test Method for Titer of Fatty AcidsD1993 Test Method for Precipitated Silica-Surface Area by Multipoint BET Nitrogen Adsorption1 This specification is under the jurisdicti

12、on ofASTM Committee D11 on Rubber and is the direct responsibility of Subcommittee D11.20 on Compounding Materials andProcedures.Current edition approved July 15, 2015Nov. 1, 2015. Published August 2015December 2015. Originally approved in 1996. Last previous edition approved in 2015 asD5900 15a.D59

13、00 15b. DOI: 10.1520/D5900-15B.10.1520/D5900-15C.2 For referencedASTM standards, visit theASTM website, www.astm.org, or contactASTM Customer Service at serviceastm.org. For Annual Book of ASTM Standardsvolume information, refer to the standards Document Summary page on the ASTM website.3 The last a

14、pproved version of this historical standard is referenced on www.astm.org.This document is not an ASTM standard and is intended only to provide the user of an ASTM standard an indication of what changes have been made to the previous version. Becauseit may not be technically possible to adequately d

15、epict all changes accurately, ASTM recommends that users consult prior editions as appropriate. In all cases only the current versionof the standard as published by ASTM is to be considered the official document.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA

16、19428-2959. United States1D2007 Test Method for Characteristic Groups in Rubber Extender and Processing Oils and Other Petroleum-Derived Oils by theClay-Gel Absorption Chromatographic MethodD2140 Practice for Calculating Carbon-Type Composition of Insulating Oils of Petroleum OriginD2161 Practice fo

17、r Conversion of Kinematic Viscosity to Saybolt Universal Viscosity or to Saybolt Furol ViscosityD2501 Test Method for Calculation of Viscosity-Gravity Constant (VGC) of Petroleum OilsD3037 Test Method for Carbon BlackSurface Area by Nitrogen Adsorption (Withdrawn 1999)3D3157 Test Method for Rubber f

18、rom Natural SourcesColorD3194 Test Method for Rubber From Natural SourcesPlasticity Retention Index (PRI)D3280 Test Methods for Analysis of White Zinc PigmentsD4004 Test Methods for RubberDetermination of Metal Content by Flame Atomic Absorption (AAS) AnalysisD4075 Test Methods for Rubber Compoundin

19、g MaterialsFlame Atomic Absorption AnalysisDetermination of MetalsD4315 Test Methods for Rubber Compounding MaterialZinc OxideD4569 Test Method for Rubber Compounding MaterialsDetermination of Acidity in SulfurD4570 Test Method for Rubber ChemicalsDetermination of Particle Size of Sulfur by Sieving

20、(Dry)D4571 Test Methods for Rubber Compounding MaterialsDetermination of Volatile MaterialD4572 Test Method for Rubber ChemicalsWet Sieve Analysis of SulfurD4574 Test Methods for Rubber Compounding MaterialsDetermination of Ash ContentD4578 Test Methods for Rubber ChemicalsDetermination of Percent S

21、ulfur by ExtractionD4678 Practice for RubberPreparation, Testing, Acceptance, Documentation, and Use of Reference MaterialsD4934 Test Method for Rubber Compounding Materials: 2-Benzothiazyl Sulfenamide AcceleratorsInsolublesD4936 Test Method for Mercaptobenzothiazole Sulfenamide Assay by Reduction/T

22、itrationD5289 Test Method for Rubber PropertyVulcanization Using Rotorless Cure MetersD6738 Test Method for Precipitated SilicaVolatile ContentD6739 Test Method for SilicapH ValueD6845 Test Method for Silica, Precipitated, HydratedCTAB (Cetyltrimethylammonium Bromide) Surface AreaD6857/D6857MD6854 T

23、est Method for Maximum Specific Gravity and Density of Bituminous Paving Mixtures UsingAutomatic Vacuum Sealing MethodSilicaOil Absorption Number (OAN)2.2 ISO Standards:4ISO 787 General methods of test for pigments and extendersISO 3262 Extenders for paints - Specifications and methods of test3. Sig

24、nificance and Use3.1 IRMs are vitally important in product and specification testing, in research and development work, in technical service work,and in quality control operations in the rubber and carbon black industries. They are especially valuable for referee purposes. ManyASTM rubber standards

25、for the evaluation of natural or synthetic rubber require the use of specific IRMs in their test recipes forbetter laboratory repeatability and reproducibility.3.2 New material lots that have been selected as candidates for IRM approval shall conform to the appropriate specificationsgiven in this st

26、andard and meet requirements given in Practice D4678 before the lots may be accepted as IRMs.3.3 The chemical and physical IRM specifications shown will ensure some consistency in IRM properties from one lot to thenext. However, the specifications cannot ensure exact inter-lot consistency.4. Assignm

27、ent and Tabulation of Reference Material (RM) Numbers4.1 Assigning RM NumbersTable 1 lists the numbering system that shall be used for assigning numbers for referencematerials. These numbers shall be assigned to either IRM or CRM candidate materials, with the acronym preceding the numberwhen referri

28、ng to the reference material.5. Specifications5.1 The following are specifications for Industry Reference Materials (IRMs).5.2 Specification for IRM 15Tetramethyl Thiuram Disulfide (TMTD):5.2.1 Material description: Appearance is light buff to white powder. Specific gravity is 1.5. This material is

29、commonly usedin certain ASTM rubber test recipes as an accelerator in sulfur vulcanization.5.2.2 Specifications are given in Table 2.5.3 Specification for IRM 26Benzothiazyl Disulfide (MBTS)4 Available from International Organization for Standardization (ISO), 1, ch. de la Voie-Creuse, CP 56, CH-121

30、1 Geneva 20, Switzerland, http:/www.iso.org.5 Lot IRM 1a is no longer available; IRM 1b has not been approved.6 A lot IRM 2a has been depleted. Lot IRM 2b has not been approved.D5900 15c25.3.1 Material description: Appearance is cream-colored powder. Specific gravity is 1.5. This material shall cont

31、ain 2 6 0.2 %mineral oil. This material is commonly used as an accelerator in certain ASTM rubber test recipes in sulfur vulcanization.5.3.2 Specifications are given in Table 3.TABLE 1 Reference Material Number Assignment by MaterialClassificationAMaterial Classification RM NumberAccelerators 110Ant

32、ioxidants 1120Fatty or stearic acids 2130Sulfur 3140Process oils 4150Plasticizers, physical 5160Waxes 6170Processing aids 7180ASTM and other reference liquids 8190Zinc-oxides 9199Silicas 100110Unassigned 111120Non-black fillers 121140NR 201210SBR 211220NBR 221230CR 231240IIR 241250BR 251260Other rub

33、bers 261300Tackifying resins 301320Non-sulfur crosslinking agents 321340Inhibitors/retarders 341360Plasticizers, chemical (peptizers) 361380Reference liquids 901930Miscellaneous materials 931999A The assigned numbers apply to both IRM and CRM.TABLE 2 Specification for IRM 1Tetramethyl Thiuram Disulf

34、ide(TMTD)Property ASTM Designation LimitsMelting point, C D1519 142 minAsh, % D4574 0.10 maxLoss on heating at 105C, % loss D4571 0.5 maxWet sieve analysis, % retaining on 100mesh screenD4572 0.05 maxTABLE 3 Specification for IRM 2Benzothiazyl Disulfide (MBTS)Property ASTM Designation LimitsMelting

35、point, C D1519 165 minAsh, % D4574 0.7 maxLoss on heating at 105C, % loss D4571 0.5 maxWet sieve analysis, % retained on 100mesh screenD4572 0.1 maxTABLE 4 Specification for IRM 3N-tert-butyl-benzothiazoleSulfenamide (TBBS)Property ASTM Designation Limit/TargetAssay, % D4936 SeparateBallotIssuedAssa

36、y, % D4936 96minMelting Point, Initial, C D1519 104 minMelting Point, Final, C D1519 112 maxVolatile Matter, % D1416 0.4 maxAsh, % D4574 0.5 maxInsolubles in Methanol, % D4934 0.5 maxD5900 15c35.4 Specification for IRM 37N-tert-butyl-benzothiazole Sulfenamide (TBBS)5.4.1 Material description: Appear

37、ance is light tan or beige pellets approximately 18 in. long. Specific gravity is 1.28.5.4.2 Specifications are given in Table 4.5.5 Specification for IRM 217Stearic Acid7 An approved lot has been reserved and is available from Akron Rubber Development Lab Inc., 300 Kenmore Blvd., Akron, OH 44301, w

38、ebsite: .TABLE 5 Specification for IRM 21Stearic AcidProperty ASTM Designation Limit/TargetMineral Acid NoneAcid Value D1980 193 to 199minTiter, C D1982 66 minIodine Value, % D1959 1.0 maxLoss on Heating, % D1960 0.2 maxAsh, % D1951 0.05 maxFat, Unsaponifiables and Insoluble, % D1965 0.5 maxTABLE 6

39、Specification for IRM 31SulfurProperty ASTM Designation Limit/TargetOrganic Material, % 0.05 maxPurity, % D4571D4574D4578D456999.5 minVolatile Matter, C D4571 0.5 maxAsh, % D4574 0.3 maxInsoluble in CS2, % D4578 0.3 maxAcidity, % D4569 0.005 maxDry analysis, % retained on 100 meshscreenD4570 0.0 max

40、Dry analysis, % retained on 200 meshscreenD4570 5 to 10TABLE 7 Specification for IRM 91Zinc Oxide (ZnO)Property ASTM Designation Limits/TargetsSurface area, m2/g D4315 and D3037 4.3 0.3% Zinc oxide D3280 99.5 min% Lead D4075 0.08 max% Cadmium D4075 0.08 maxLoss on heating 105C % loss D280 0.50 maxWe

41、t sieve analysis, %, retains on 45 m D4315 0.10 maxTABLE 8 Specification for IRM 100Precipitated SilicaProperty ASTM Designation Limits/TargetsSurface area (BET), m2/g D1993 175 15Surface area (CTAB), m2/g D6845 167 15Volatile matter, % (2 h at 105C) D6738 3.5 0.7pH value, (5 %) D6739 5.5 0.5Conduct

42、ivity, S/cm (4 %) ISO 787 #350Loss on ignition, % (orig. mat.) ISO 3262 6.5 1.0OAN Silica (DOA), mL/100 g (orig.mat.) D6857/D6857M 260 15OAN Silica (DOA), mL/100 g (orig.mat.) D6854 260 15TABLE 9 Specification for IRM 241Butyl RubberProperty ASTM Designation Limits/TargetsMooney Viscosity mL 1 + 8 1

43、25C(unmassed)D1646 51 1Volatile matter, % D1416 0.30 maxAsh, % D1416 0.50 maxD5900 15c45.5.1 Material description: Appearance is a fine powder or flakes.5.5.2 Specifications are given in Table 5.5.6 Specification for IRM 317Sulfur:5.6.1 Material description: Appearance is light to pale yellow powder

44、.5.6.2 Specifications are given in Table 6.5.7 Specification for IRM 918Zinc Oxide (ZnO):5.7.1 Material description: Appearance is a white powder. Specific gravity is 5.6. This material is commonly used in manyASTM rubber test recipes as an activator and in ASTM test recipes for testing halogenated

45、elastomers as a vulcanizing agent.5.7.2 Specifications are given in Table 7.5.8 Specification for IRM 1009Precipitated Silica:5.8.1 Material DescriptionAppearance is a white powder. Specific gravity is 2.0. Its CAS registry number is 112926-00-8.This silica is commonly used for the quality control m

46、onitoring of typical silica properties.5.8.2 Specifications are given in Table 8.8 An approved lot has been reserved and is available from R. E. Carroll, Inc., P.O. Box 5806, Trenton, NJ 08638-0806.G.H. Chemicals Ltd., PO Box 456, Saint Hyacinthe,Qubec, Canada, J2S 7B8.9 An approved lot has been res

47、erved and is available from Balentine Enterprises, Inc. dba Laboratory Standards and Technologies, 227 Somerset Street, Borger, Texas79007, http:/.TABLE 10 Specification for IRM 901Petroleum OilProperty ASTMDesignation Limit/TargetsViscosity: cst 99C D445 19.23 1.11Gravity, API 16C D287 28.8 1.0Flas

48、h pt. COC, C D92 243 minAniline point, C D611 124 1Viscosity-gravity Constant D2140 0.790 0.805Naphthenics Cn% D2140 27 (avg)Paraffinics Cp% D2140 65 minTABLE 11 Specification for IRM 902Petroleum OilProperty ASTM Designation Limits/TargetsViscosity: cst 99C D445 20.35 1.15Gravity, API 16C D287 20.0

49、 1.0Flash pt. COC, C D92 232 minAniline point, C D611 93.0 3.0Viscosity-gravity constant D2140 0.865 0.005Naphthenics Cn% D2140 35 minParaffinics Cp% D2140 50 maxTABLE 12 Specification for IRM 903Petroleum OilProperty ASTM Designation Limits/TargetsViscosity: cst 38C D445 33 1.1Gravity, API 16C D287 22.0 1.0Flash pt. COC, C D92 163 minAniline point, C D611 70.0 1.0Viscosity-gravity const

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