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ISO 10300-1:2014

Superseded

Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

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Calculation of load capacity of bevel gears — Part 1: Introduction and general influence factors

Available format(s)

Hardcopy , PDF , PDF 3 Users , PDF 5 Users , PDF 9 Users

Superseded date

24-08-2023

Superseded by

ISO 10300-1:2023

Language(s)

English

Published date

17-03-2014

€60.00
Excluding VAT

ISO 10300-1:2014 specifies the methods of calculation of the load capacity of bevel gears, the formulae and symbols used for calculation, and the general factors influencing load conditions.

The formulae are intended to establish uniformly acceptable methods for calculating the pitting resistance and bending strength of straight, helical (skew), spiral bevel, Zerol and hypoid gears. They are applicable equally to tapered depth and uniform depth teeth. The term "bevel gear" refers to all of these gear types; if not the case, the specific forms are identified.

The formulae take into account the known major factors influencing pitting on the tooth flank and fractures in the tooth root. The rating formulae are not applicable to other types of gear tooth deterioration such as plastic yielding, micropitting, case crushing, welding, and wear. The bending strength formulae are applicable to fractures at the tooth fillet, but not to those on the active flank surfaces, to failures of the gear rim or of the gear blank through the web and hub. Pitting resistance and bending strength rating systems for a particular type of bevel gears can be established by selecting proper values for the factors used in the general formulae. If necessary, the formulae allow for the inclusion of new factors at a later date. The rating system of ISO 10300 (all parts) is based on virtual cylindrical gears and restricted to bevel gears whose virtual cylindrical gears have transverse contact ratios of εvα < 2. Additionally, the given relations are valid for bevel gears of which the sum of profile shift coefficients of pinion and wheel is zero (see ISO 23509).

Committee
ISO/TC 60/SC 2
DevelopmentNote
Supersedes ISO/DIS 10300-1. (03/2014)
DocumentType
Standard
Pages
58
PublisherName
International Organization for Standardization
Status
Superseded
SupersededBy
Supersedes

Standards Relationship
DS ISO 10300-1 : 2014 Identical
BS ISO 10300-1:2014 Identical
NEN ISO 10300-1 : 2014 Identical
SAC GB/T 10062.1 : 2003 Identical

BS ISO 10972-1:1998 Cranes. Requirements for mechanisms General
11/30229145 DC : 0 BS ISO 10300-2 - CALCULATION OF LOAD CAPACITY OF BEVEL GEARS - PART 2: CALCULATION OF SURFACE DURABILITY (PITTING)
ISO/TR 10300-30:2017 Calculation of load capacity of bevel gears — Part 30: ISO rating system for bevel and hypoid gears — Sample calculations
BS ISO/TR 13989-2:2000 Calculation of scuffing load capacity of cylindrical, bevel and hypoid gears Integral temperature method
11/30235014 DC : 0 BS EN 13135 - CRANES - SAFETY - DESIGN - REQUIREMENTS FOR EQUIPMENT
ISO/TS 6336-21:2017 Calculation of load capacity of spur and helical gears Part 21: Calculation of scuffing load capacity (also applicable to bevel and hypoid gears) Integral temperature method
05/30128083 DC : DRAFT JAN 2005 BEVEL GEARS - ISO SYSTEM OF ACCURACY
PD ISO/TR 22849:2011 Design recommendations for bevel gears
ISO/TS 6336-20:2017 Calculation of load capacity of spur and helical gears Part 20: Calculation of scuffing load capacity (also applicable to bevel and hypoid gears) Flash temperature method
BS EN 13135 : 2013 CRANES - SAFETY - DESIGN - REQUIREMENTS FOR EQUIPMENT
ISO 10300-3:2014 Calculation of load capacity of bevel gears — Part 3: Calculation of tooth root strength
I.S. EN 13135:2013 CRANES - SAFETY - DESIGN - REQUIREMENTS FOR EQUIPMENT
FD ISO/TR 13989-2 : 2000 FD CALCULATION OF SCUFFING LOAD CAPACITY OF CYLINDRICAL, BEVEL AND HYPOID GEARS - PART 2: INTEGRAL TEMPERATURE METHOD
BS ISO 10300-2:2014 Calculation of load capacity of bevel gears Calculation of surface durability (pitting)
AGMA ISO 23509 : A BEVEL AND HYPOID GEAR GEOMETRY
11/30229142 DC : 0 BS ISO 10300-3 - CALCULATION OF LOAD CAPACITY OF BEVEL GEARS - PART 3: CALCULATION OF TOOTH ROOT STRENGTH
BS ISO/TR 13989-1:2000 Calculation of scuffing load capacity of cylindrical, bevel and hypoid gears Flash temperature method
BS ISO 10300-3:2014 Calculation of load capacity of bevel gears Calculation of tooth root strength
AGMA ISO 17485 : A BEVEL GEARS - ISO SYSTEM OF ACCURACY
ISO/TR 22849:2011 Design recommendations for bevel gears
UNE-EN 13135:2013 Cranes - Safety - Design - Requirements for equipment
05/30110655 DC : DRAFT JAN 2005 ISO 23509 - BEVEL AND HYPOID GEAR GEOMETRY
EN 13135:2013+A1:2018 Cranes - Safety - Design - Requirements for equipment
DIN EN 13135:2013-05 CRANES - SAFETY - DESIGN - REQUIREMENTS FOR EQUIPMENT
ISO/TR 13989-2:2000 Calculation of scuffing load capacity of cylindrical, bevel and hypoid gears Part 2: Integral temperature method
ISO 17485:2006 Bevel gears ISO system of accuracy
PD ISO/TS 6336-21:2017 Calculation of load capacity of spur and helical gears Part 21: Calculation of scuffing load capacity (also applicable to bevel and hypoid gears) — Integral temperature method
BS ISO 17485:2006 Bevel gears. ISO system of accuracy
15/30298301 DC : 0 BS ISO 23509 - BEVEL AND HYPOID GEAR GEOMETRY
PD ISO/TR 10300-30:2017 Calculation of load capacity of bevel gears ISO rating system for bevel and hypoid gears. Sample calculations
FD ISO/TR 13989-1 : 2000 FD CALCULATION OF SCUFFING LOAD CAPACITY OF CYLINDRICAL, BEVEL AND HYPOID GEARS - PART 1: FLASH TEMPERATURE METHOD
ISO 10300-2:2014 Calculation of load capacity of bevel gears — Part 2: Calculation of surface durability (pitting)

ISO 701:1998 International gear notation Symbols for geometrical data
ISO/TR 10064-6:2009 Code of inspection practice Part 6: Bevel gear measurement methods
ISO 6336-5:2016 Calculation of load capacity of spur and helical gears Part 5: Strength and quality of materials
ISO 6336-1:2006 Calculation of load capacity of spur and helical gears Part 1: Basic principles, introduction and general influence factors
ISO/TR 22849:2011 Design recommendations for bevel gears
ISO 23509:2016 Bevel and hypoid gear geometry
ISO 10300-3:2014 Calculation of load capacity of bevel gears — Part 3: Calculation of tooth root strength
ISO 6336-6:2006 Calculation of load capacity of spur and helical gears Part 6: Calculation of service life under variable load
ISO 17485:2006 Bevel gears ISO system of accuracy
ISO 10300-2:2014 Calculation of load capacity of bevel gears — Part 2: Calculation of surface durability (pitting)

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