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GB/T 33218-2025: Equipment structure health monitoring - Equipment health monitoring method based on fiber optic sensing technology
Status: Valid GB/T 33218: Evolution and historical versions
| Standard ID | Contents [version] | USD | STEP2 | [PDF] delivered in | Standard Title (Description) | Status | PDF |
| GB/T 33218-2025 | English | 319 |
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Equipment structure health monitoring - Equipment health monitoring method based on fiber optic sensing technology
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GB/T 33218-2025
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| GB/T 33218-2016 | English | 199 |
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Non-destructive testing -- Practice for equipment health monitoring based on fiber sensing technology
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GB/T 33218-2016
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PDF similar to GB/T 33218-2025
Basic data | Standard ID | GB/T 33218-2025 (GB/T33218-2025) | | Description (Translated English) | Equipment structure health monitoring - Equipment health monitoring method based on fiber optic sensing technology | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | J04 | | Classification of International Standard | 13.100 | | Word Count Estimation | 15,177 | | Date of Issue | 2025-05-30 | | Date of Implementation | 2025-12-01 | | Older Standard (superseded by this standard) | GB/T 33218-2016 | | Issuing agency(ies) | State Administration for Market Regulation, China National Standardization Administration | GB/T 33218-2025: Equipment structure health monitoring - Equipment health monitoring method based on fiber optic sensing technology
---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.
ICS 13.100
CCSJ04
National Standard of the People's Republic of China
Replaces GB/T 33218-2016
Equipment structural health monitoring based on fiber optic sensing technology
Equipment Health Monitoring Methods
Released on 2025-05-30
2025-12-01 Implementation
State Administration for Market Regulation
The National Standardization Administration issued
Table of contents
Preface III
1 Scope 1
2 Normative references 1
3 Terms and Definitions 1
4 Method Overview 2
5 Monitoring sensor 2
5.1 General requirements 2
5.2 Fiber Optic Strain Sensor Requirements 2
5.3 Fiber Optic Vibration Sensor Requirements 2
6 Monitoring equipment 3
6.1 Demodulation module requirements 3
6.2 Data Acquisition Module Requirements 3
6.3 Data transmission module requirements 4
7 Health Management Platform 4
7.1 General requirements 4
7.2 Data Analysis System 5
7.3 Health Diagnosis System 5
7.4 Damage Prediction System 6
7.5 Health Reporting System 6
7.6 Platform Management System 6
8 Equipment health monitoring implementation process 7
9 Health Monitoring System Installation and Maintenance 7
9.1 General Provisions 7
9.2 Monitoring Sensors 7
9.3 Health Monitoring Equipment 7
9.4 Health Management Platform 7
9.5 Operation and Maintenance 8
Appendix A (Informative) Mean Amplitude Matrix 9
Appendix B (Informative) Health Diagnosis Methods 10
B.1 Calculation method of fatigue cumulative damage 10
B.2 Time Domain Index Method10
Foreword
This document is in accordance with the provisions of GB/T 1.1-2020 "Guidelines for standardization work Part 1.Structure and drafting rules for standardization documents"
Drafting.
This document replaces GB/T 33218-2016 "Non-destructive testing - Equipment health monitoring method based on optical fiber sensing technology" and GB/T 33218-
Compared with.2016, in addition to structural adjustments and editorial changes, the main technical changes are as follows.
a) The scope has been changed (see Chapter 1, Chapter 1 of the.2016 edition);
b) Added terms and definitions (see Chapter 3);
c) added an overview of the methodology (see Chapter 4);
d) Added monitoring sensors (see Chapter 5);
e) Added monitoring equipment (see Chapter 6);
f) Added health management platform (see Chapter 7);
g) Added equipment health monitoring implementation process (see Chapter 8);
h) Added health monitoring system installation and maintenance (see Chapter 9).
Please note that some of the contents of this document may involve patents. The issuing organization of this document does not assume the responsibility for identifying patents.
This document was proposed and coordinated by the National Equipment Structural Health Monitoring Standardization Working Group (SAC/SWG22).
This document was drafted by. China Special Equipment Testing and Research Institute, Anhui University of Technology, Beijing University of Chemical Technology, Beijing Jiaotong University, Qingdao City
Special Equipment Inspection Institute, Anhui Special Equipment Inspection Institute, Shenzhen Jiede Intelligent System Co., Ltd., Jilin Special Equipment Inspection Center
Special Equipment Accident Investigation Service Center of Jilin City, Jiangsu Special Equipment Safety Supervision and Inspection Institute, Tianjin Special Equipment Supervision and Inspection Institute
Testing Technology Research Institute, Guangdong Polytechnic Normal University, and University of Electronic Science and Technology of China.
The main drafters of this document are. Ding Keqin, Chen Li, Liu Qingyun, Chen Guang, Zhao Liqiang, Zhao Na, Xin Wei, Wang Zhijie, Li Na, Liu Xijun, Wang Chaojie,
Liu Peng, Ning Weidong, Ding Kejian, Lin Hongwei, Li Gongning, Gao Shuai, Wang Xinhua, and Liu Zhiliang.
This document was first published in.2016 and this is the first revision.
Equipment structural health monitoring based on fiber optic sensing technology
Equipment Health Monitoring Methods
1 Scope
This document describes a method for equipment health monitoring based on fiber optic sensing technology, including data analysis methods, health diagnosis methods, and damage/
Fault prediction methods and related requirements.
This document is applicable to health monitoring during the operation of mechanical equipment, wind power equipment and other equipment.
2 Normative references
The contents of the following documents constitute essential clauses of this document through normative references in this document.
For referenced documents without a date, only the version corresponding to that date applies to this document; for referenced documents without a date, the latest version (including all amendments) applies to
This document.
GB/T 5226.1 Electrical safety of machinery Electrical equipment of machinery Part 1.General technical requirements
GB/T 14412 Mechanical installation of mechanical vibration and shock accelerometers
GB/T 19873.1 Machine condition monitoring and diagnosis Vibration condition monitoring Part 1.General
GB/T 19873.2 Machine condition monitoring and diagnosis Vibration condition monitoring Part 2.Vibration data processing, analysis and description
GB/T 23713.1 Machine condition monitoring and diagnosis and prediction Part 1.General guidance
GB/T 33213 Equipment structural health monitoring - Stress monitoring method based on optical fiber sensing technology
GB/T 39417 Health Management of Large Amusement Facilities
GB 50171 Specification for the construction and acceptance of panels, cabinets and secondary circuit wiring for electrical installation projects
3 Terms and definitions
The terms and definitions defined in GB/T 39417 and the following apply to this document.
3.1
Real-time online monitoring of key characteristic parameters for safe operation of equipment is carried out to obtain health information of the equipment.
Note. This document focuses on real-time health monitoring of key parts such as the metal structure and transmission mechanism (reducer, motor) of the equipment.
3.2
It is a comprehensive equipment that integrates the monitoring functions of equipment metal structure and transmission mechanism, and can realize the health monitoring of equipment metal structure and transmission mechanism.
Comprehensive monitoring of health status.
3.3
health diagnosis healthdiagnosis
Using the stress, vibration and other related data obtained by health monitoring equipment, combined with data processing methods, damage characteristic parameters are extracted to construct diagnostic
Model is the process of judging the health status of metal structures and transmission mechanisms.
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