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ISO - ISO TR 6336-30 - CALCULATION OF LOAD CAPACITY OF SPUR AND HELICAL GEARS - PART 30: CALCULATION EXAMPLES FOR THE APPLICATION OF ISO 6336 PARTS 1,2,3,5 Organization: ISO
WILEY - GEARS AND GEAR DRIVES - GEARS AND GEAR DRIVES Organization: WILEY
Date: 2012-01-01
Description: Key features: Contains hundreds of 2D and 3D figures to illustrate all types of gears and gear drives, including planetary and worm gears Includes fundamental derivations and explanations of formulae Enables the reader to know how to carry out accuracy control and load capacity checks for any gear drive Includes directions for the practical design of gears and gear drives Covers DIN and ISO standards in the area  Gears and Gear Drives is a comprehensive reference for gears and gear drive professionals and graduate students in mechanical engineering departments and covers everything important to know how to design, control and manufacture gear drives.
AGMA 11FTM09 - STANDARDIZATION OF LOAD DISTRIBUTION EVALUATION: UNIFORM DEFINITION OF KHΒ FOR HELICAL GEARS Organization: AGMA
Date: 2011-10-01
Description: For spur gears with no helix angle the interpretation of the measurements to a face load factor is intuitively easy. For helical gears, more frequently used in big gearboxes, the determination of the factor gets tougher.
AGMA ISO 6336-6 - CALCULATION OF LOAD CAPACITY OF SPUR AND HELICAL GEARS - PART 6: CALCULATION OF SERVICE LIFE UNDER VARIABLE LOAD Organization: AGMA
Date: 2008-05-20
Description: While the method is presented in the context of ISO 6336 and calculation of the load capacity of spur and helical gears, it is equally applicable to other types of gear stress.
AGMA ISO 23509 - BEVEL AND HYPOID GEAR GEOMETRY Organization: AGMA
Date: 2008-05-20
Description: While the method is presented in the context of ISO 6336 and the calculation of load capacity for spur and helical gears, it is equally applicable to other types of stress. Identical adoption of ISO 6336-6:2006.
AGMA 912 - MECHANISMS OF GEAR TOOTH FAILURES Organization: AGMA
Date: 2004-10-23
Description: The information presented in this document applies to spur and helical gears. However, with some exceptions the information also applies to bevel, worm and hypoid gears.
DELPHI-I - DELPHI DX500083 - BASIC RACKS OF METRIC INVOLUTE GEARS Organization: DELPHI-I
Date: 1999-12-01
Description: SCOPE This standard documents the metric involute gear standard basic rack tooth profile for 20, 22.5 and 25 degree pressure angles which are applicable to spur and helical cylindrical gears, worm gears, straight and spiral bevel gears and hypoid gears. The basic racks are essentially in agreement with the International Standards Organization, ISO 53-1974, Cylindrical Gears for General and Heavy Engineering Basic Rack.
DNVGL-CG-0036 - CALCULATION OF GEAR RATING FOR MARINE TRANSMISSIONS Organization: DNVGL
Date: 2015-12-01
Description: Scope and basic principles The gear rating procedures given in this class guideline are mainly based on the ISO6336 Part 1 to 5 (cylindrical gears), and partly on ISO 10300 Part 1 to 3 (bevel gears) and ISO Technical Reports on Scuffing and Fatigue Damage Accumulation, but especially applied for marine purposes, such as marine propulsion and important auxiliaries onboard ships and mobile offshore units.
AGMA 10FTM13 - GEAR DESIGN FOR WIND TURBINE GEARBOXES TO AVOID TONAL NOISE ACCORDING TO ISO/IEC 61400-11 Organization: AGMA
Date: 2010-10-01
Description: Present wind turbine gearbox design usually includes one or two planetary gear stages and at least one high speed helical gear stage, which play an important role regarding noise and vibration behavior.
AGMA 04FTM5 - INVESTIGATIONS ON THE MICROPITTING LOAD CAPACITY OF CASE CARBURIZED GEARS Organization: AGMA
Date: 2004-10-01
Description: For this purpose an extensive test program on spur and helical gears of different sizes and different gear geometry has been carried out.
AGMA 11FTM19 - CONVOLOID GEARING TECHNOLOGY - THE SHAPE OF THE FUTURE Organization: AGMA
Date: 2011-10-01
Description: The result is a major enhancement in gear drive system power density and cost reduction for a given power requirement. Convoloid gearing is totally scalable and is used in parallel axis helical, planetary, and other configurations.
ISO - ISO TS 10303-5001 - INDUSTRIAL AUTOMATION SYSTEMS AND INTEGRATION — PRODUCT DATA REPRESENTATION AND EXCHANGE — PART 5001: GUIDANCE ON THE USAGE OF ISO 10303-214 FOR GEAR UNITS - FIRST EDITION Organization: ISO
Date: 2010-11-15
Description: The following are within the scope of this part of ISO 10303: — parts related to gear units: — baseplate; — basic material; — belt; — bevel gear; — brake; — chain; — clutch; — coupling; — crossed helical gear; — fit of key assembly — fitting key; — helical gear; — housing; — hypoid gear; — interference fit assembly; — lubricant; — pinion shaft; — plain bearing; — planetary gear train; — rolling element bearing; — sealing; — shaft; — spur gear; — tool; — user defined machine element; — wheel; — worm and worm wheel; — basic materials used to produce those parts; — lubricants for gear units; — tools used for the manufacturing of gear units; — gear technology properties that can be assigned to parts, assemblies, tools, lubricants and basic materials: — deformations, shift and bending; — dynamic; — efficiency loss; — environment; — forces and moments; — geometry, topology and geometry dependent data; — hardness; — life time; — load capacity data (wear, pitting, breakage, scuffing); — manufacturing data; — mesh data; — operating data; — power, rotation and speed; — pressure and stress; — safety; — service data; — sliding and wear; — stiffness, suspension; — surface texture; — temperature data.
DS/ISO 10300-2 - CALCULATION OF LOAD CAPACITY OF BEVEL GEARS - PART 2: CALCULATION OF SURFACE DURABILITY (PITTING) Organization: DS
Date: 2014-04-01
Description: ISO 10300-2:2014 specifies the basic formulae for use in the determination of the surface load capacity of straight and helical (skew), Zerol and spiral bevel gears including hypoid gears, and comprises all the influences on surface durability for which quantitative assessments can be made.
DSF/ISO/FDIS 10300-2 - CALCULATION OF LOAD CAPACITY OF BEVEL GEARS - PART 2: CALCULATION OF SURFACE DURABILITY (PITTING) Organization: DS
Description: This part of ISO 10300 specifies the basic formulae for use in the determination of the surface load capacity of straight and helical (skew), Zerol and spiral bevel gears including hypoid gears, and comprises all the influences on surface durability for which quantitative assessments can be made.
DSF/ISO/DIS 10300-2 - CALCULATION OF LOAD CAPACITY OF BEVEL GEARS - PART 2: CALCULATION OF SURFACE DURABILITY (PITTING) Organization: DS
Description: This part of ISO 10300 specifies the basic formulae for use in the determination of the surface load capacity of straight and helical (skew), Zerol and spiral bevel gears and hypoid gears, and includes all the influences on surface durability for which quantitative assessments can be made.
DS/ISO 10300-3 - CALCULATION OF LOAD CAPACITY OF BEVEL GEARS - PART 3: CALCULATION OF TOOTH ROOT STRENGTH Organization: DS
Date: 2014-04-01
Description: ISO 10300-3:2014 specifies the fundamental formulae for use in the tooth root stress calculation of straight and helical (skew), Zerol and spiral bevel gears including hypoid gears, with a minimum rim thickness under the root of 3,5 mmn.
DSF/ISO/DIS 10300-1 - CALCULATION OF LOAD CAPACITY OF BEVEL GEARS - PART 1: INTRODUCTION AND GENERAL INFLUENCE FACTORS Organization: DS
Description: The formulae in ISO 10300 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.
DS/ISO 10300-1 - CALCULATION OF LOAD CAPACITY OF BEVEL GEARS - PART 1: INTRODUCTION AND GENERAL INFLUENCE FACTORS Organization: DS
Date: 2014-04-01
Description: 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.
DSF/ISO/FDIS 10300-3 - CALCULATION OF LOAD CAPACITY OF BEVEL GEARS - PART 3: CALCULATION OF TOOTH ROOT STRENGTH Organization: DS
Description: This part of ISO 10300 specifies the fundamental formulae for use in the tooth root stress calculation of straight and helical (skew), Zerol and spiral bevel gears, including hypoid gears with a minimum rim thickness under the root of 3,5 mmn.
DSF/ISO/FDIS 10300-1 - CALCULATION OF LOAD CAPACITY OF BEVEL GEARS - PART 1: INTRODUCTION AND GENERAL INFLUENCE FACTORS Organization: DS
Description: The formulae in ISO 10300 (all parts) 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.

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