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Delivery: <= 5 days. True-PDF full-copy in English will be manually translated and delivered via email. GBZ3480.4-2024: Calculation of load capacity of spur and helical gears - Part 4: Calculation of tooth flank fracture load capacity Status: Valid
Basic dataStandard ID: GB/Z 3480.4-2024 (GB/Z3480.4-2024)Description (Translated English): Calculation of load capacity of spur and helical gears - Part 4: Calculation of tooth flank fracture load capacity Sector / Industry: National Standard Classification of Chinese Standard: J17 Classification of International Standard: 21.200 Word Count Estimation: 34,331 Date of Issue: 2024-04-25 Date of Implementation: 2024-11-01 Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration GBZ3480.4-2024: Calculation of load capacity of spur and helical gears - Part 4: Calculation of tooth flank fracture load capacity---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. GB /Z 3480:4-2024: Calculation of load capacity of spur and helical gears Part 4: Calculation of tooth surface fracture load capacity ICS 21:200 CCSJ17 Guiding technical documents of the People's Republic of China on national standardization Calculation of load capacity of spur and helical gears Part 4: Calculation of tooth surface fracture load capacity (ISO /T S6336-4:2019,IDT) Released on 2024-04-25 2024-11-01 Implementation State Administration for Market Regulation The National Standardization Administration issued Table of ContentsPreface III Introduction IV 1 Scope 1 2 Normative references 1 3 Terms, definitions, symbols and abbreviations 2 3:1 Terms and Definitions 2 3:2 Symbols and abbreviations 2 3:3 Definition of local contact point CP and material depth (y) 4 4 Definition of tooth surface fracture 4 5 Basic formula 5 5:1 General 5 5:2 Maximum material exposure value (AFF,max) 5 5:3 Local material exposure value [AFF, CP (y)] 6 6 Local equivalent stress [τeff,CP(y)] 6 6:1 Overview 6 6:2 Local equivalent stress without considering residual stress [τeff,L,CP(y)] 7 6:3 Quasi-steady-state residual stress [τeff,RS(y)] 18 6:4 Effect of residual stress on local equivalent stress [Δτeff,L,RS,CP(y)] 19 7 Local material shear strength [τper,CP(y)] 20 7:1 Overview 20 7:2 Hardness conversion coefficient (Kτ,per) 20 7:3 Material coefficient (Kmaterial) 20 7:4 Hardness gradient curve [HV(y)] 21 Appendix A (Informative) Calculation of local equivalent stress [τeff,L,CP(y)] without considering residual stress 23 Reference 24ForewordThis document is in accordance with GB/T (Z) 1:1-2020 "Guidelines for standardization work Part 1: Structure and drafting rules for standardization documents" Drafting of regulations: This document is part 4 of GB/T (Z) 3480 "Calculation of load capacity of spur and helical gears": GB/T (Z) 3480 has been published The following parts: --- Part 1: Basic principles, overview and general influence coefficients; --- Part 2: Calculation of tooth surface contact strength (pitting); --- Part 3: Calculation of gear tooth bending strength; --- Part 4: Calculation of tooth surface fracture load capacity; --- Part 5: Strength and quality of materials; --- Part 6: Calculation of service life under variable load conditions; --- Part 22: Calculation of micropitting load-bearing capacity: This document is equivalent to ISO /T S6336-4:2019 "Calculation of load capacity of spur and helical gears Part 4: Tooth surface fracture load Capacity Calculation", the document type was adjusted from ISO technical specifications to my country's national standardization guiding technical documents: The following minimal editorial changes were made to this document: --- Table 2 adds symbols vr1, CP and vr2, CP; --- Added Figures 5 to 7 and some formulas mentioned in the text; --- Added introductory words to the items in 6:2:4:2:4:3: 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 is proposed and coordinated by the National Technical Committee for Gear Standardization (SAC/TC52): This document was drafted by: Zhengzhou Machinery Research Institute Co:, Ltd:, Jiangsu Huizhi High-end Engineering Machinery Innovation Center Co:, Ltd:, Zhengzhou Machinery Research Institute (Zhengzhou Zhou) Transmission Technology Co:, Ltd:, Wenling Minghua Gear Co:, Ltd:, Northwestern Polytechnical University, Nanjing High Speed Gear Manufacturing Co:, Ltd:, Chongqing University Shaanxi Fast Gear Co:, Ltd:, Chongqing Gearbox Co:, Ltd:, Jinhua Xinhua Gear Co:, Ltd:, Henan University of Science and Technology Guizhou Qunjian Precision Machinery Co:, Ltd:, Zhejiang Shuanghuan Transmission Machinery Co:, Ltd:, Taiyuan University of Technology, Guangdong Jinli Intelligent Transmission Technology Technology Co:, Ltd:, Chongqing Yongda Precision Machinery Co:, Ltd:, Zhejiang Beto Transmission Technology Co:, Ltd:, Chongqing Nanyan Industrial Group Longjian Machine Machinery Manufacturing Co:, Ltd:, Chongqing Suteng Machinery Manufacturing Co:, Ltd: The main drafters of this document are: Wang Zhigang, Cao Zhigang, Zhu Haoyue, Pei Bang, Yan Lingming, Yan Yaolong, Li Haixia, He Aimin, Fan Ruili, Zhang Yuanyuan, Li Jiqiang, Feng Jian, Li Shuitu, Long Jianbing, Jiang Chuang, Guo Qingqing, Wu Nan, Lu Zehua, Tang Heng, Zheng Hongyu, He Benyi, Zhou Zhiqiang, Tang Yixiang, Wei Bingyang, Xiong Yongqiang, Wang Chunmei, Wu Jizhan, Liu Huaiju, Guo Hui, Guan Hongjie, Zhao Jiadong, Zhang Ruiliang, Liu Hehe, Wang Xiaoyi, Dou Xiaopeng, Duan Hanhui, Tu Kehui, Li Dongyang, He Jian, Yang Xiaohu, Tao Xianyu:IntroductionGB/T (Z) 3480 "Calculation of load capacity of spur gears and helical gears" is widely used in my country's gear industry: The calculation system of the load-bearing capacity of involute cylindrical gears in my country will help my country's gear products to fully keep pace with international standards: GB/T (Z) 3480 mainly stipulates the calculation of the load capacity of involute spur gears and helical gears: The standard is divided into 11 parts, each of which is interrelated and independent, and together constitutes a relatively complete calculation framework: According to different research objects and calculation methods, GB/T (Z) 3480 is planned to consist of 11 parts: --- Part 1: Basic principles, overview and general influence factors: The purpose is to establish the load capacity of involute spur gears and helical gears: The basic principles of force calculation are given, and the values of general influence coefficients and some correction coefficients are given: --- Part 2: Calculation of tooth surface contact strength (pitting): The purpose is to give the tooth surface contact strength (pitting) based on Hertz contact theory: The calculation method of erosion) and the values of some correction coefficients: --- Part 3: Calculation of gear tooth bending strength: The purpose is to give a calculation method for the tooth surface bending strength based on the cantilever beam theory and The values of some correction coefficients: --- Part 4: Calculation of tooth surface fracture load capacity: The purpose is to describe a method developed in recent years to assess the risk of tooth surface fracture: method: --- Part 5: Strength and quality of materials: The purpose is to give the technical requirements of different material quality grades and the influence of gear tooth surface joints: The main factors and allowable values of contact strength limit and tooth root bending strength limit: --- Part 6: Calculation of service life under variable load conditions: The purpose is to give the calculation results of the service life under variable load conditions by Palmgren-Miner The calculation method of the equivalent value of variable load is based on the law: --- Part 20: Flash temperature method for calculation of bonding load capacity: The purpose is to describe the maximum contact temperature of the meshing tooth surface and the contact temperature Variations along the contact path: --- Part 21: Accumulated temperature method for calculation of bonding load capacity: The purpose is to describe the weighted contact temperature of the meshing tooth surface along the contact path average value: --- Part 22: Calculation of micropitting load carrying capacity: The purpose is to describe the minimum oil film thickness model of a specific lubricant in the gear contact area: Type, in order to evaluate the gear's ability to resist micropitting: --- Part 30: Calculation examples based on GB/T 3480:1, 2, 3, and 5: Reference examples for GB/T 3480:2, GB/T 3480:3 and GB/T 3480:5 series standards: --- Part 31: Calculation example of micropitting load carrying capacity: The purpose is to provide a reference example based on GB /Z 3480:22: The names of the various parts and their ISO correspondence are shown in Table 1: Table 1 Parts of the GB/T 3480 series (status as of the publication date of this document) Calculation of load capacity of spur and helical gears ISO file type Transformed into my country's standard file type ISO ISO /TS ISO /TR GB/T GB /Z Part 1: Basic principles, overview and general influence coefficients √ √ Part 2: Calculation of tooth surface contact strength (pitting) √ √ Part 3: Calculation of gear tooth bending strength √ √ Part 4: Calculation of tooth surface fracture load capacity √ √ Table 1 Parts of the GB/T 3480 series (status as of the publication date of this document) (continued) Calculation of load capacity of spur and helical gears ISO file type Transformed into my country's standard file type ISO ISO /TS ISO /TR GB/T GB /Z Part 5: Strength and quality of materials √ √ Part 6: Calculation of service life under variable load conditions √ √ Part 20: Calculation of bearing capacity of glued joints - Flash temperature method (Partially replaces: GB /Z 6413:1-2003) √ × Part 21: Calculation of the bearing capacity of glued joints - Accumulated temperature method (Partially replaces: GB /Z 6413:2-2003) √ × Part 22: Calculation of micropitting load capacity √ √ Part 30: Calculation examples applying parts 1, 2, 3 and 5 of ISO 6336√ × Part 31: Calculation example of micropitting load bearing capacity √ × Note: “√” indicates that it has been published, and “×” indicates that it has not been published: Calculation of load capacity of spur and helical gears Part 4: Calculation of tooth surface fracture load capacity1 ScopeThis document describes the calculation method for the fracture load capacity of the tooth flanks of external spur and helical cylindrical gears: This document is not intended to be used as a rating method during gearbox design and certification: The formulas in this document apply to driving and driven cylindrical gears with a tooth profile in accordance with ISO 53 and also to gears with a small actual end contact ratio (εα): The method has been verified for carburized and hardened gears [15], and the formula given in this document is applicable to For carburized and hardened gears that meet the following conditions: ---Hertz stress: 500N/mm2≤pH≤3000N/mm2; ---Normal relative curvature radius: 5mm≤ρred≤150mm; --- In the finished product state, the depth of the surface hardened layer at 550HV is: 0:3mm≤CHD≤4:5mm: This document is not applicable to the assessment of gear tooth damage of types other than tooth surface fracture:2 Normative referencesThe contents of the following documents constitute the 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: Note: GB/T 3374:1-2010 Gear terms and definitions Part 1: Geometric definitions (ISO 1122-1:1998, IDT) ISO 1328-1 Cylindrical gears - ISO tooth flank tolerance classification system - Part 1: Definitions and permissible values of tooth flank deviations Note: GB/T 10095:1-2022 Cylindrical gears ISO tooth surface tolerance classification system Part 1: Definition and allowable values of tooth surface deviation (ISO 1328-1: 2013, IDT) ISO 6336-1 Spur and helical gears - Calculation of load capacity - Part 1: Basic principles, overview and general influence factors (Calcula- ence factors) Note: GB/T 3480:1-2019 Calculation of load capacity of spur and helical gears Part 1: Basic principles, overview and general influence factors (ISO 6336- 1:2006,IDT) ISO 6336-2 Calculation of load carrying capacity of spur and helical gears Part 2: Calculation of tooth contact strength (pitting) Note: GB/T 3480:2-2021 Calculation of load capacity of spur and helical gears Part 2: Calculation of tooth contact strength (pitting) (ISO 6336-2: 2019, IDT) and gear pairs - Concepts and geometry) ......Tips & Frequently Asked 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