GB/T 24635.1-2020 English PDF

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GB/T 24635.1-2020: Geometrical product specifications (GPS). Coordinate measuring machines (CMM): Technique for determining the uncertainty of measurement - Part 1: Overview and metrological characteristics
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Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 24635.1-2020	279	Add to Cart	3 days	Geometrical product specifications (GPS). Coordinate measuring machines (CMM): Technique for determining the uncertainty of measurement - Part 1: Overview and metrological characteristics	Valid

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Basic data

Standard ID: GB/T 24635.1-2020 (GB/T24635.1-2020)
Description (Translated English): Geometrical product specifications (GPS). Coordinate measuring machines (CMM): Technique for determining the uncertainty of measurement - Part 1: Overview and metrological characteristics
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: J04
Classification of International Standard: 17.040.30
Word Count Estimation: 15,142
Date of Issue: 2020-12-14
Date of Implementation: 2021-07-01
Quoted Standard: GB/T 16857.1; GB/T 18779.1; GB/T 18779.2-2004; GB/T 24634; JJF L001; JJF L059.1
Adopted Standard: ISO/TS 15530-1-2013, MOD
Regulation (derived from): National Standard Announcement No. 28 of 2020
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration
Summary: This standard specifies the measurement characteristics of coordinate measuring machines (CMM), the source of uncertainty for specific tasks, and the relationship between the GB/T 16857 series of standards and the GB/T 24635 series of standards (see Appendix A). This standard applies to the use of coordinate measuring machines to evaluate the measurement uncertainty of a specific task.

GB/T 24635.1-2020: Geometrical product specifications (GPS). Coordinate measuring machines (CMM): Technique for determining the uncertainty of measurement - Part 1: Overview and metrological characteristics

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
(Product Geometric Technical Specification (GPS) Coordinate Measuring Machine (CMM) Technology for Determining Measurement Uncertainty Part 1: Summary and Metrological Characteristics) ICS 17:040:30 J04 National Standards of People's Republic of China Product Geometric Technical Specification (GPS) Coordinate Measuring Machine (CMM) Techniques for determining measurement uncertainty Part 1: Summary and measurement characteristics (ISO /T S15530-1:2013,MOD) Released on 2020-12-14 Implemented on 2021-07-01 State Administration for Market Regulation Issued by the National Standardization Management Committee

Table of contents

Foreword Ⅰ Introduction Ⅱ 1 Scope 1 2 Normative references 1 3 Terms and definitions 1 4 Metrological characteristics 2 4:1 Overview 2 4:2 In Trade 2 4:3 Use within the organization 2 4:4 Identification, definition and selection of metrological characteristics 2 4:5 Calibration of metrological characteristics 3 5 Uncertainty of specific tasks 3 5:1 Overview 3 5:2 Measuring equipment factor 3 5:3 Measurement planning factors 3 5:4 External factors 3 6 Techniques for determining the measurement uncertainty component of a specific task 4 6:1 General 4 6:2 Sensitivity analysis 4 6:3 Application of calibrated workpieces or standard parts (GB/T 24635:3) 4 6:4 Computer simulation (GB/T 24635:4) 4 Appendix A (informative appendix) The relationship between the measurement characteristics of coordinate measuring machines in GB/T 16857 and GB/T 24635 5 Appendix B (informative appendix) Sources of error and measurement uncertainty when using coordinate measuring machines 6 Appendix C (informative appendix) and GPS matrix model relationship 10 Reference 11

Foreword

GB/T 24635 "Geometric Technical Specification for Products (GPS) Coordinate Measuring Machine (CMM) Technology for Determining Measurement Uncertainty" is divided into five Parts: ---Part 1: Summary and measurement characteristics; ---Part 2: Apply multiple measurement strategies; ---Part 3: Application of calibrated workpieces or standard parts; ---Part 4: Application of simulation technology to evaluate the measurement uncertainty of a specific task; ---Part 5: Application of expert judgment: This part is Part 1 of GB/T 24635: This section was drafted in accordance with the rules given in GB/T 1:1-2009: This part uses the redrafting method to modify and adopt ISO /T S15530-1:2013 "Geometrical Technical Specifications for Products (GPS) Coordinate Measuring Machines" (CMM) Techniques for Determining Measurement Uncertainty Part 1: Summary and Metrological Characteristics: The technical differences between this part and ISO /T S15530-1:2013 and the reasons are as follows: ---Regarding normative reference documents, this section has made adjustments with technical differences to adapt to my country's technical conditions and adjustments: The situation is collectively reflected in Chapter 2 "Normative Reference Documents", and the specific adjustments are as follows: ● Replace ISO 10360-1 with GB/T 16857:1 equivalent to the international standard (see Chapter 3); ● Replace ISO 14253-1 (see Chapter 3) with GB/T 18779:1, which is equivalent to the international standard; ● Replace ISO 14253-2 with GB/T 18779:2, which is equivalent to the international standard (see Chapter 3); ● Replace ISO 14978 with GB/T 24634 equivalent to the international standard (see Chapter 3); ● Use JJF1001-2011 instead of ISO /IEC Guide 99:2007 (see Chapter 3); ● Use JJF1059:1-2012 instead of ISO /IEC Guide 98-3:2008 (see Chapter 3, 6:1): This section has made the following editorial changes: ---According to the requirements of GB/T 1:1-2009, in the "Scope" chapter, "This section applies to the evaluation of special features when using coordinate measuring machines:" Uncertainty of measurement for a given task": This part is proposed and managed by the National Standardization Technical Committee for Product Geometric Technical Specifications (SAC/TC240): Drafting organizations of this section: China Institute of Metrology, Chongqing Institute of Metrology and Quality Inspection, Shandong University of Technology, China Machinery Productivity Promotion Advancement Center, Shanghai Institute of Metrology and Testing Technology, Shaanxi Institute of Metrology, Carl Zeiss (Shanghai) Management Co:, Ltd: The main drafters of this section: Wang Weinong, Wei Hengzheng, Chen Long, Xu Jian, Li Dongxing, Mao Bin, Zhang Bo, Fei Lina, Zhu Yue:

Introduction

This part of GB/T 24635 is a general GPS standard: In the GPS general standard matrix, this part affects the links of the standard chain: G size, distance, shape, direction, position and runout: This part is part of the GB/T 20308 system: Unless otherwise specified, the GPS basic rules given in GB/T 4249 apply to this Part, the default rules given in GB/T 18779:1 apply to the specifications made in accordance with this part: This series of standards aims to provide professional terminology, technology and guidance for the evaluation of measurement uncertainty for specific tasks when using coordinate measuring machines: south: These technologies allow the assessment of sources of uncertainty that affect specific tasks, including coordinate measurement systems, sampling strategies, environmental effects, operator Factors and other factors that affect the actual measurement results: The coordinate measuring machine is a complex GPS measuring device: It is sometimes necessary to apply the More advanced technology mentioned in GB/T 18779:2: The technologies mentioned in the GB/T 24635 series are the same as those in GB/T 18779:2 and JJF1059:2 The technologies mentioned are the same: This technology is specially developed for coordinate measuring machines, but it can also be applied to other GPS measuring equipment: The coordinate measuring machine carries out the acceptance test in accordance with the provisions of the GB/T 16857 series, which mainly includes measuring the length (such as the use of gauge blocks or step distances) Space test) or shape (for example, probing test using a standard ball): However, it should be realized that although these tests can determine some characteristics The uncertainty of measurement of a given length or shape: Without further analysis and testing, these measurements are insufficient to determine most specific The measurement uncertainty of the measurement task: The purpose of determining measurement uncertainty can be achieved in many ways: However, all methods need to be consistent with GUM: To the combined standard uncertainty: The expanded uncertainty is related to the composite standard uncertainty through the inclusion factor, and the size of the inclusion factor depends on The size of the confidence interval: The default value of the inclusion factor k=2 means that if the uncertainty follows the Gaussian distribution, the confidence interval is about 95%: The content of this standard aims to provide a recognized technical guide for determining the uncertainty of coordinate measuring machines: Product Geometric Technical Specification (GPS) Coordinate Measuring Machine (CMM) Techniques for determining measurement uncertainty Part 1: Summary and measurement characteristics

1 Scope

This part of GB/T 24635 is an overview of the GB/T 24635 series, which specifies the metrological characteristics and specific tasks of coordinate measuring machines (CMM): The source of uncertainty for the service, gives the relationship between the GB/T 16857 series of standards and the GB/T 24635 series of standards (see Appendix A): This section is suitable for evaluating the measurement uncertainty of a specific task when using a coordinate measuring machine:

2 Normative references

The following documents are indispensable for the application of this document: For dated reference documents, only the dated version applies to this article Pieces: For undated references, the latest version (including all amendments) applies to this document: GB/T 16857:1 Technical Specification for Product Geometrical Quantities (GPS) Acceptance Testing and Re-inspection Testing of Coordinate Measuring Machines Part 1: Words Exchange (GB/T 16857:1-2002, eqvISO 10360-1:2000) GB/T 18779:1 Technical Specification for Product Geometrical Quantity (GPS) Measurement Inspection of Workpieces and Measuring Equipment Part 1: Inspection According to Specifications Rules for determining qualified or unqualified inspection (GB/T 18779:1-2002, eqvISO 14253-1:1998) GB/T 18779:2-2004 Product Geometrical Technical Specifications (GPS) Measurement and Inspection of Workpieces and Measuring Equipment Part 2: Measurement Guidelines for the Evaluation of Uncertainty of GPS Measurement in Calibration of Measuring Equipment and Product Inspection (ISO /T S14253-2:1999, IDT) GB/T 24634 Product Geometric Technical Specification (GPS) General concepts and requirements for GPS measuring equipment (GB/T 24634-2009, ISO 14978:2006, IDT) JJF1001 General measurement terms and definitions JJF1059:1 Evaluation and expression of measurement uncertainty

3 Terms and definitions

GB/T 16857:1, GB/T 18779:1, GB/T 18779:2, GB/T 24634, JJF1059:1, JJF1001 and the following Terms and definitions apply to this document: 3:1 Task-specificmeasurementuncertainty The expanded uncertainty of a specific measurement result (including factor k=2) evaluated according to JJF1059:1: Note 1: The measurement uncertainty of a specific task includes all sources of uncertainty related to the details of the measurement process, including coordinate measuring machines, detection systems, and sampling Strategy, workpiece location and orientation, fixtures, contaminants, and ambient temperature: Note 2: Generally speaking, different parameters of features have different uncertainties, for example: the center of a circle, the uncertainty of its X and Y coordinates may be different: Note 3: Changing the amount of influence, such as changing the position of the workpiece in the measurement area of the coordinate measuring machine, may cause a change in the measurement uncertainty of a specific task: ......

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