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JJF 1130-2005: Guide to the Estimation of Uncertainty in Calibration of Geometrical Measuring Equipment
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Guide to the Estimation of Uncertainty in Calibration of Geometrical Measuring Equipment
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JJF 1130-2005
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Basic data | Standard ID | JJF 1130-2005 (JJF1130-2005) | | Description (Translated English) | Guide to the Estimation of Uncertainty in Calibration of Geometrical Measuring Equipment | | Sector / Industry | Metrology & Measurement Industry Standard | | Classification of Chinese Standard | A52 | | Word Count Estimation | 39,320 | | Date of Issue | 2005-04-28 | | Date of Implementation | 2005-07-28 | | Quoted Standard | ISO 1-1975; ISO 4288-1996; GB/T 19001-2000; GB/T 19004-2000; GB/T 18779.1-2002; ISO 14253-3-2002; GB/T 18780.1-2002; JJF 1059-1999; JJF 1001-1998 | | Issuing agency(ies) | State Administration of Quality Supervision, Inspection and Quarantine | | Summary | This standard applies to geometric measurement device characteristics assessed (calibration) activities. This specification aims to give you complete all of the information reported by the uncertainty and the measurement result and its uncertainty (between customer and supplier relationships) provide a basis for international comparison. | JJF 1130-2005: Guide to the Estimation of Uncertainty in Calibration of Geometrical Measuring Equipment
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Guide to the Estimation of Uncertainty in Calibration of Geometrical Measuring Equipment
National Metrology Technical Specification of the People's Republic
Geometric measurement equipment calibration
Uncertainty assessment guide
Released on.2005-04-28
2005-07-28 implementation
The General Administration of Quality Supervision, Inspection and Quarantine issued
Geometric measurement equipment calibration
Uncertainty assessment guide
This specification was approved by the General Administration of Quality Supervision, Inspection and Quarantine on April 28,.2005, and
It will take effect on July 28,.2005.
Focal Point. National Geometric Length Measurement Technical Committee
Drafted by. China Institute of Metrology
This specification is interpreted by the National Geometric Length Measurement Technical Committee.
Drafters of this specification.
Ni Yucai (China Institute of Metrology)
Wang Weinong (China Institute of Metrology)
table of Contents
1 Scope (1)
2 Citations (1)
3 Terms and definitions (2)
3.1 Black box model for uncertainty evaluation (2)
3.2 Transparent Box Model for Uncertainty Evaluation (2)
3.3 Measurement tasks (3)
3.4 Basic Measurement Tasks (Basic Measurements) (3)
3.5 Overall Measurement Tasks (3)
3.6 (measured) extended uncertainty (3)
3.7 True uncertainty (3)
3.8 Conventional Uncertainty---GUM Uncertainty (3)
3.9 approximate uncertainty (3)
3.10 (measured or calibrated) target uncertainty (3)
3.11 Required Measurement Uncertainty (3)
3.12 Uncertainty Management (4)
3.13 (Measurement or Calibration) Uncertainty Estimate (4)
3.14 Uncertainty factors (4)
3.15 Limit value of uncertainty factor (limit of change) (4)
3.16 uncertainty component (4)
3.17 Influence of measuring instrument (4)
3.18 Influence of workpiece (4)
4 symbols (4)
5 Using the iterative GUM method to assess the concept of measurement uncertainty (6)
6 Uncertainty Management Program---PUMA (7)
6.1 Overview (7)
6.2 Uncertainty management for a given measurement process (7)
6.3 Uncertainty management for the design and development of measurement processes (procedures) (8)
7 Measurement error and measurement uncertainty source (10)
7.1 Type of error (10)
7.2 Measurement environment (12)
7.3 Reference Standard for Measuring Equipment (12)
7.4 Measuring Equipment (12)
7.5 Measurement configuration (except for the mounting of the device under test) (13)
7.6 Software and Computing (13)
7.7 Surveyors (13)
7.8 Characteristics of measuring instruments (13)
7.9 Definition of geometrical measuring instrument characteristics (14)
7.10 Measurement Procedures (14)
7.11 Physical Constants and Conversion Factors (14)
8 Evaluation methods for uncertainty components, standard uncertainty and extended uncertainty (14)
8.1 Evaluation of uncertainty components (14)
8.2 Class A assessment of uncertainty components (14)
8.3 Class B assessment of uncertainty components (15)
8.4 Common examples of Class A and Class B assessments (17)
8.5 Black box model and transparent box model for uncertainty evaluation (19)
8.6 Black Box Model for Uncertainty Evaluation---Synthesis Criteria from Uncertainty Component Synthesis
Uncertainty uc (20)
8.7 Transparent Box Model for Uncertainty Evaluation---Synthesis Criteria from Uncertainty Component Synthesis
Uncertainty uc (20)
8.8 Evaluation of extended uncertainty U by synthetic standard uncertainty uc (21)
8.9 Measurement uncertainty parameters uc and U properties (21)
9 Actual Evaluation of Uncertainty---Uncertainty Estimation of PUMA Method (21)
9.1 Overview (21)
9.2 Prerequisites for the uncertainty estimate (21)
9.3 Standard procedure for uncertainty estimates (22)
10 Applications (24)
10.1 Overview (24)
10.2 Document preparation and evaluation of uncertainty values (25)
10.3 Design and documentation of the measurement or calibration process (25)
10.4 Design, Optimization and Documentation of Calibration Levels (26)
10.5 Design and documentation of new measuring equipment (26)
10.6 Environmental requirements (28)
10.7 Requirements for surveyors (28)
Appendix A Example of Uncertainty Estimation---Circular Calibration (29)
Geometric measurement equipment calibration
Uncertainty assessment guide
This specification is based on ISO 14253-2.1999 Geometrical Product Specifications (GPS) - Workpieces and measuring equipment
Measurement Testing - Part 2. Guidance for Uncertainty Evaluation of GPS Measurements in Measurement Equipment Calibration and Product Inspection
(Geometrical Product Specifications (GPS)---Inspection by measurement of
Workpiecesandmeasuringequipment---Part 2. Guidetotheestimationofuncertainty
inGPSmeasurement,incalibrationofmeasuringequipmentandinproductverification)
Drafting, the basic content is the same, but only for calibration activities, so the words related to product inspection are abridged.
In order to maintain the unity of text and the convenience of international exchange, in this specification, we use GUM as.1993 7
The Guide to Measurement Uncertainty (GUM) or JJF 1059-1999 jointly issued by international organizations
Abbreviation for the recommended uncertainty assessment method.
1 Scope
As a basis for implementing the JJF 1059-1999 "Measurement Uncertainty Evaluation and Representation" basic concept in calibration
South, this specification applies to the characterization (calibration) activities of geometric measuring equipment. The purpose of this specification is to give incomplete
All the information of the qualitative report, and the international measurement results and their uncertainty (the relationship between the customer and the supplier)
The comparison provides the basis.
This specification helps to understand the maximum allowable error (MPE) of the metrology characteristics of measuring equipment.
This specification uses the Uncertainty Management Program (PUMA), which is based on JJF 1059-1999.
A practical iterative procedure for measuring uncertainty, and no changes have been made to the basic concepts of JJF 1059-1999.
This specification is generally used for uncertainty assessment and reporting of uncertainty in the following situations.
---A single measurement result;
--- comparison of two or more measurements;
--- Measurement results obtained by one (or more) measuring equipment and specified technical indicators (ie measuring instruments or
A comparison of the maximum allowable error (MPE, etc.) of the metrological characteristics of the standard is measured to determine whether the requirements are met.
The iterative method of this specification is basically based on the evaluation of the upper bound of the uncertainty, that is, the various stages of uncertainty evaluation.
The segment overestimates its uncertainty, and the degree of overestimation is controlled by the number of iterations. In order to avoid making wrong judgments from the measurement results
Broken, deliberate overestimation of uncertainty. The degree of overestimation is determined by the economic evaluation in specific situations.
In calibration activities, the iterative method is the tool that gets the most benefit at the lowest cost. Iterative or iterative procedure
Economically self-regulating. In order to reduce the calibration cost, the iterative method is to change/reduce the measurement uncertainty.
Tool of. In the measurement uncertainty assessment and allocation, the iterative method makes the coordination between risk, effect and cost become
may.
2 Citations
The terms in the following documents become the terms of this specification by reference to this specification. Quotations with dated
, all subsequent amendments (not including errata content) or revisions do not apply to this specification, however, drums
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