1、Designation: D4739 11Standard Test Method forBase Number Determination by Potentiometric HydrochloricAcid Titration1This standard is issued under the fixed designation D4739; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year
2、 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.INTRODUCTIONCurrently, there are two ASTM test methods under the jurisdiction of Committee D02 used fordetermining base number
3、 by potentiometric titration: Test Method D2896 and Test Method D4739.They are both used throughout the petroleum industry. Test Method D2896 is for new oils and is usedin setting specifications since it is more accurate than Test Method D4739. Test Method D4739 shallbe used exclusively for the purp
4、ose of tracking base number loss as an oil proceeds in service. In manycases, the test methods will provide different results. Some comparisons are given in the Scope andthe Significance and Use sections of this test method to distinguish between the two standards and toprovide guidance to users.1.
5、Scope*1.1 This test method covers a procedure for the determina-tion of basic constituents in petroleum products and new andused lubricants. This test method resolves these constituentsinto groups having weak-base and strong-base ionizationproperties, provided the dissociation constants of the mores
6、trongly basic compounds are at least 1000 times than that ofthe next weaker groups. This test method covers base numbersup to 250.1.2 In new and used lubricants, the constituents that can beconsidered to have basic properties are primarily organic andinorganic bases, including amino compounds. This
7、test methoduses hydrochloric acid as the titrant, whereas Test MethodD2896 uses perchloric acid as the titrant. This test method mayor may not titrate these weak bases and, if so, it will titratethem to a lesser degree of completion; some additives such asinhibitors or detergents may show basic char
8、acteristics.1.3 When testing used engine lubricants, it should berecognized that certain weak bases are the result of the servicerather than having been built into the oil. This test method canbe used to indicate relative changes that occur in oil during useunder oxidizing or other service condition
9、s regardless of thecolor or other properties of the resulting oil. The valuesobtained, however, are intended to be compared with the othervalues obtained by this test method only; base numbersobtained by this test method are not intended to be equal tovalues by other test methods. Although the analy
10、sis is madeunder closely specified conditions, this test method is notintended to, and does not, result in reported basic propertiesthat can be used under all service conditions to predictperformance of an oil; for example, no overall relationship isknown between bearing corrosion or the control of
11、corrosivewear in the engine and base number.1.4 This test method was developed as an alternative for theformer base number portion of Test Method D664 (lastpublished in Test Method D66481).1.4.1 Colorimetric test methods for base number are TestMethod D974, IP 139, and 5102.1 on acid and base number
12、 byextraction (color-indicator titration) of Federal Test MethodStandard No. 791b. Test results by these methods may or maynot be numerically equivalent to this test method.1.5 The values stated in SI units are to be regarded asstandard. No other units of measurement are included in thisstandard.1.6
13、 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-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Docu
14、ments2.1 ASTM Standards:2D664 Test Method for Acid Number of Petroleum Products1This test method is under the jurisdiction of ASTM Committee D02 onPetroleum Products and Lubricants and is the direct responsibility of SubcommitteeD02.06 on Analysis of Lubricants.Current edition approved May 15, 2011.
15、 Published July 2011. Originallyapproved in 1987. Last previous edition approved in 2008 as D4739081. DOI:10.1520/D4739-11.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, re
16、fer to the standards Document Summary page onthe ASTM website.1*A Summary of Changes section appears at the end of this standard.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.by Potentiometric TitrationD974 Test Method for Acid and
17、Base Number by Color-Indicator TitrationD1193 Specification for Reagent WaterD2896 Test Method for Base Number of Petroleum Prod-ucts by Potentiometric Perchloric Acid TitrationD4057 Practice for Manual Sampling of Petroleum andPetroleum ProductsD4177 Practice for Automatic Sampling of Petroleum and
18、Petroleum Products2.2 IP Standard:3IP 139 Petroleum products and lubricants Determinationof acid and base number Colour-indicator titrationmethod2.3 U.S. Federal Test Method:4Federal Test Method Standard No. 791b Lubricants LiquidFuels and Related Products; Methods of Testing3. Terminology3.1 Defini
19、tions:3.1.1 base number, nthe quantity of a specified acid,expressed in terms of the equivalent number of milligrams ofpotassium hydroxide per gram of sample, required to titrate asample in a specified solvent to a specified endpoint using aspecified detection system.3.1.1.1 DiscussionIn this test m
20、ethod, the sample istitrated to a meter reading corresponding to aqueous acidicbuffer solution or appropriate inflection point.3.2 Definitions of Terms Specific to This Standard:3.2.1 strong base number, nthe quantity of acid, ex-pressed in terms of the equivalent number of milligrams ofpotassium hy
21、droxide per gram of sample, that is required totitrate a sample dissolved in the specified solvent from theinitial meter reading to a meter reading corresponding to abasic buffer solution.4. Summary of Test Method4.1 The sample is dissolved in a mixture of toluene,propan-2-ol (isopropyl alcohol), ch
22、loroform, and a smallamount of water and titrated potentiometrically with alcoholichydrochloric acid solution. The test results of this procedureare obtained by titration mode of fixed increment and fixedtime additions of the titrant. An endpoint is selected from atitration curve according to the cr
23、iteria given in Section 12 andused to calculate a base number.5. Significance and Use5.1 New and used petroleum products can contain basicconstituents that are present as additives. The relative amountof these materials can be determined by titration with acids.The base number is a measure of the am
24、ount of basicsubstances in the oil always under the conditions of the test. Itis sometimes used as a measure of lubricant degradation inservice. However, any condemning limit shall be empiricallyestablished.5.2 As stated in 1.2, this test method uses a weaker acid totitrate the base than Test Method
25、 D2896, and the titrationsolvents are also different. Test Method D2896 uses a strongeracid and a more polar solvent system than Test Method D4739.As a result, Test Method D2896 will titrate salts of weak acids(soaps), basic salts of polyacidic bases, and weak alkaline saltsof some metals. They do n
26、ot protect the oil from acidiccomponents due to the degradation of the oil. This test methodmay produce a falsely exaggerated base number. Test MethodD4739 will probably not titrate these weak bases but, if so, willtitrate them to a lesser degree of completion. It measures onlythe basic components o
27、f the additive package that neutralizesacids. On the other hand, if the additive package contains weakbasic components that do not play a role in neutralizing theacidic components of the degrading oil, then the Test MethodD4739 result may be falsely understated.5.3 Particular care is required in the
28、 interpretation of thebase number of new and used lubricants.5.3.1 When the base number of the new oil is required as anexpression of its manufactured quality, Test Method D2896 ispreferred, since it is known to titrate weak bases that this testmethod may or may not titrate reliably.5.3.2 When the b
29、ase number of in-service or at-term oil isrequired, this test method is preferred because in many cases,especially for internal combustion engine oils, weakly basicdegradation products are possible. Test Method D2896 willtitrate these, thus giving a false value of essential basicity. Thistest method
30、 may or may not titrate these weak acids.5.3.3 When the loss of base number value, as the oilsproceed in service, is the consideration, this test method is to bepreferred and all values including the unused oil shall bedetermined by this test method. Base numbers obtained by thistest method shall no
31、t be related to base numbers obtained byanother test method such as Test Method D2896.5.3.4 In ASTM Interlaboratory Crosscheck Programs forboth new and used lubricants, historically Test Method D2896gives a higher value for base number.6. Apparatus6.1 Potentiometric Titration, automatic or manual, w
32、ithcapability of adding fixed increments of titrant at fixed timeintervals (see Annex A1).6.1.1 The titrimeter must automatically (or manually) con-trol the rate of addition of titrant as follows: Delivery of titrantwill be incremental; after delivery of precisely a 0.100-mLincrement (see 6.1.2), th
33、e delivery is stopped and a fixed timeperiod of 90 s is allowed to pass before another 0.100-mLincrement of titrant is delivered. This procedure is repeateduntil the titration is completed.6.1.2 The precision of addition of the 0.100-mL incrementsof titrant must be 60.001 mL for automatic titrators.
34、 Formanual buret, it should be 60.005 mL. A higher incrementalprecision is required for an automatic buret, because the totalvolume to the end point is summed from the individualincrements; it is read from a scale with a manual buret.3Available from Energy Institute, 61 New Cavendish St., London, WI
35、G 7AR,U.K.4Available from Standardization Documents Order Desk, DODSSP, Bldg. 4,Section D, 700 Robbins Ave., Philadelphia, PA 19111-5098.D4739 1126.2 Sensing Electrode, standard pH with glass membrane,suitable for non-aqueous titrations.6.3 Reference Electrode, Silver/Silver Chloride (Ag/AgCl)refere
36、nce electrode with sleeve junction, filled with 1 to 3 MLiCl in ethanol.6.3.1 Combination ElectrodeSensing electrodes mayhave the Ag/AgCl reference electrode built into the sameelectrode body, which offers the convenience of working withand maintaining only one electrode. The combination electrodesh
37、all have a sleeve junction type of reference and shall use aninert ethanol electrolyte, for example, 1 to 3 M LiCl in ethanol.In the reference compartment, the sensing electrode part shalluse a glass membrane designed for non-aqueous titrations.These combination electrodes shall have the same respon
38、se orbetter response than a dual electrode system. They shall haveremovable sleeves for easy rinsing and addition of electrolyte.(WarningWhen a movable sleeve is part of the electrodesystem, ensure that the sleeve is unimpaired before everytitration.)6.4 Stirrer, Buret, Stand, Titration Vessel, as s
39、pecified inAnnex A1, are required.7. Reagents7.1 Purity of ReagentsReagent-grade chemicals shall beused in all tests. Unless otherwise indicated, it is intended thatall reagents shall conform to the specifications of the Commit-tee on Analytical Reagents of the American Chemical Society,where such s
40、pecifications are available.5Other grades may beused, provided it is first ascertained that the reagent is ofsufficiently high purity to permit its use without lessening theaccuracy of the determination.7.2 Purity of WaterUnless otherwise indicated, referencesto water shall be understood to mean rea
41、gent water that meetsthe requirement of either Type I, II, or III of SpecificationD1193.7.3 Buffer, Aqueous AcidCommercial pH 3 buffer solutionwith a tolerance of 60.02 pH units at 25C. This solution shallbe replaced at regular intervals consistent with its stability orwhen contamination is suspecte
42、d. Information related to thestability should be obtained from the manufacturer.7.4 Buffer, Aqueous BasicCommercial pH 10 buffer solu-tion with a tolerance of 60.02 pH units at 25C. This solutionshall be replaced at regular intervals consistent with its stabilityor when contamination is suspected. I
43、nformation related to thestability should be obtained from the manufacturer.7.5 ChloroformReagent grade. (WarningToxic andsuspected carcinogen.)7.6 Hydrochloric Acid Solution, Standard Alcoholic(0.1 M)Mix 9 mL of reagent grade hydrochloric acid (HCl,sp gr 1.19) (WarningToxic and corrosive), with 1 L
44、 ofanhydrous isopropyl alcohol. Standardize frequently enough todetect normality changes of 0.0005 by potentiometric titrationof approximately 8 mL (accurately measured) of the 0.1 Malcoholic KOH solution diluted with 125 mL CO2-free water.7.7 Ethanolreagent grade. (WarningFlammable andtoxic, especi
45、ally when denatured.)7.8 Lithium Chloride ElectrolytePrepare a solution of 1 to3 M LiCl in ethanol.7.9 Potassium Hydroxide(WarningCauses severeburns.)7.10 Potassium Hydroxide Solution, Standard Alcoholic(0.1 M)Add6gofreagent grade potassium hydroxide(KOH) (WarningToxic and corrosive), to approximate
46、ly 1 Lof anhydrous isopropyl alcohol. Boil gently for 10 min to effectsolution. Allow the solution to stand for 2 days, and then filterthe supernatant liquid through a fine sintered-glass funnel.Store the solution in a chemically resistant bottle. Dispense ina manner such that the solution is protec
47、ted from atmosphericcarbon dioxide (CO2) by means of a guard tube containingsoda lime or soda non-fibrous silicate absorbent, and such thatit does not come into contact with cork, rubber, or saponifiablestopcock grease. Standardize frequently enough to detectnormality changes of 0.0005 by potentiome
48、tric titration ofweighed quantities of potassium acid phthalate dissolved inCO2-free water.7.11 Propan-2-ol (Isopropyl Alcohol)Anhydrous, (lessthan 0.1 % H2O). (WarningFlammable.) If dry reagentcannot be procured, dry it by distillation through a multipleplate column, discarding the first 5 % of mat
49、erial distilling overand using the 95 % remaining. Also, drying can be accom-plished using molecular sieves by passing the solvent upwardthrough a molecular sieve column using one part of molecularsieve per ten parts of solvent. (WarningIt has been reportedthat, if not inhibited against it, propan-2-ol can containperoxides. When this occurs, an explosive mixture is possiblewhen the storage vessel or other equipment such as a dispens-ing bottle, are near empty and approaching dryness.7.12 Commercially available solutions may be used in placeof laboratory
