5.1 ASTM test methods are frequently intended for use in the manufacture, selling, and buying of materials in accordance with specifications and therefore should provide such precision that when the test is properly performed by a competent operator, the results will be found satisfactory for judging the compliance of the material with the specification. Statements addressing precision and bias are required in ASTM test methods. These then give the user an idea of the precision of the resulting data and its relationship to an accepted reference material or source (if available). Statements addressing determinability are sometimes required as part of the test method procedure in order to provide early warning of a significant degradation of testing quality while processing any series of samples.
5.2 Repeatability and reproducibility are defined in the precision section of every Committee D02 test method. Determinability is defined above in Section 3. The relationship among the three measures of precision can be tabulated in terms of their different sources of variation (see Table 1).
TABLE 1 Sources of Variation
Method
Apparatus
Operator
Laboratory
Time
Reproducibility
Complete
Different
Different
Different
Not Specified
(Result)
Repeatability
Complete
Same
Same
Same
Almost same
(Result)
Determinability
Incomplete
Same
Same
Same
Almost same
(Part result)
5.2.1 When used, determinability is a mandatory part of the Procedure section. It will allow operators to check their technique for the sequence of operations specified. It also ensures that a result based on the set of determined values is not subject to excessive variability from that source.
5.3 A bias statement furnishes guidelines on the relationship between a set of test results and a related set of accepted reference values. When the bias of a test method is known, a compensating adjustment can be incorporated in the test method.
5.4 This practice is intended for use by D02 subcommittees in determining precision estimates and bias statements to be used in D02 test methods. Its procedures correspond with ISO 4259 and are the basis for the Committee D02 computer software, Calculation of Precision Data: Petroleum Test Methods. The use of this practice replaces that of Research Report RR:D02-1007.2
5.5 Standard practices for the calculation of precision have been written by many committees with emphasis on their particular product area. One developed by Committee E11 on Statistics is Practice E691. Practice E691 and this practice differ as outlined in Table 2.
TABLE 2 Differences in Calculation of Precision in Practices D6300 and E691
Element
This Practice
Practice E691
Number of replicates
Two
Any number
Precision is written
for
Test method
Each sample
Outlier tests:
Within laboratories
Between laboratories
Sequential
Cochran test
Hawkins test
Simultaneous
k-value
h-value
Outliers
Rejected, subject to subcommittee approval.
Rejected if many laboratories or for cause such as blunder or not following method.
Retesting not generally permitted.
Laboratory may retest sample having rejected data.
Analysis of variance
Two-way, applied globally
to all the remaining data
at once.
One-way, applied to each sample separately.
Precision multiplier
t , where t is the two-tailed Student's t for 95 % probability.
Increases with decreasing laboratories × samples particularly below 12.
Constant.
Variation of precision with level
Minimized by data transformation. Equations
for repeatability and reproducibility are generated in the retransformation process.
User may assess from individual sample precisions.
Область применения1.1 This practice covers the necessary preparations and planning for the conduct of interlaboratory programs for the development of estimates of precision (determinability, repeatability, and reproducibility) and of bias (absolute and relative), and further presents the standard phraseology for incorporating such information into standard test methods.
1.2 This practice is generally limited to homogeneous products with which serious sampling problems (such as heterogeneity or instability) do not normally arise.
1.3 This practice may not be suitable for products with sampling problems as described in 1.2, solid or semisolid products such as petroleum coke, industrial pitches, paraffin waxes, greases, or solid lubricants when the heterogeneous properties of the substances create sampling problems. In such instances, consult a trained statistician.
1.4 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.