|
Cylindrical gears for general and heavy engineering — Basic rack
|
|
Cylindrical gears for general and heavy engineering — Standard basic rack tooth profile
|
|
Cylindrical gears for general engineering and for heavy engineering — Modules and diametral pitches
|
|
Cylindrical gears for general engineering and for heavy engineering — Modules
|
|
Withdrawal of ISO/R 467-1966
|
|
Straight bevel gears for general engineering and heavy engineering — Basic rack
|
|
Straight bevel gears for general engineering and heavy engineering — Modules and diametral pitches
|
|
International gear notation — Symbols for geometrical data
|
|
International gear notation — Symbols for geometrical data
|
|
Glossary of gear terms — Part 1: Geometrical definitions
|
|
Vocabulary of gear terms — Part 1: Definitions related to geometry
|
|
Vocabulary of gear terms — Part 1: Definitions related to geometry — Technical Corrigendum 1
|
|
Vocabulary of gear terms — Part 1: Definitions related to geometry — Technical Corrigendum 2
|
|
Vocabulary of gear terms — Part 2: Definitions related to worm gear geometry
|
|
Withdrawal of ISO/R 1122-1969
|
|
Cylindrical gears — ISO system of accuracy — Part 1: Definitions and allowable values of deviations relevant to corresponding flanks of gear teeth
|
|
Cylindrical gears — ISO system of flank tolerance classification — Part 1: Definitions and allowable values of deviations relevant to flanks of gear teeth
|
|
Cylindrical gears — ISO system of accuracy — Part 2: Definitions and allowable values of deviations relevant to radial composite deviations and runout information
|
|
Cylindrical gears — ISO system of flank tolerance classification — Part 2: Definitions and allowable values of double flank radial composite deviations
|
|
Parallel involute gears — ISO system of accuracy
|
|
Cylindrical gears — Information to be given to the manufacturer by the purchaser in order to obtain the gear required
|
|
Straight bevel gears — Information to be given to the manufacturer by the purchaser in order to obtain the gear required
|
|
Technical drawings — Conventional representation of gears
|
|
Single-start solid (monobloc) gear hobs with axial keyway, 1 to 20 module and 1 to 20 diametral pitch — Nominal dimensions
|
|
Single-start solid (monobloc) gear hobs with tenon drive or axial keyway, 1 to 40 module — Nominal dimensions
|
|
Solid (monobloc) gear hobs with tenon drive or axial keyway, 0,5 to 40 module — Nominal dimensions
|
|
Addendum modification of the teeth of cylindrical gears for speed-reducing and speed-increasing gear pairs
|
|
Gear hobs — Single start — Accuracy requirements
|
|
Gear hobs — Accuracy requirements
|
|
Gear hobs — Accuracy requirements — Technical Corrigendum 1
|
|
Gear hobs — Accuracy requirements
|
|
Calculation of load capacity of spur and helical gears — Part 1: Basic principles, introduction and general influence factors
|
|
Calculation of load capacity of spur and helical gears — Part 1: Basic principles, introduction and general influence factors — Technical Corrigendum 1
|
|
Calculation of load capacity of spur and helical gears — Part 1: Basic principles, introduction and general influence factors — Technical Corrigendum 2
|
|
Calculation of load capacity of spur and helical gears — Part 1: Basic principles, introduction and general influence factors
|
|
Calculation of load capacity of spur and helical gears — Part 1: Basic principles, introduction and general influence factors — Technical Corrigendum 1
|
|
Calculation of load capacity of spur and helical gears — Part 1: Basic principles, introduction and general influence factors
|
|
Calculation of load capacity of spur and helical gears — Part 2: Calculation of surface durability (pitting)
|
|
Calculation of load capacity of spur and helical gears — Part 2: Calculation of surface durability (pitting) — Technical Corrigendum 1
|
|
Calculation of load capacity of spur and helical gears — Part 2: Calculation of surface durability (pitting) — Technical Corrigendum 2
|
|
Calculation of load capacity of spur and helical gears — Part 2: Calculation of surface durability (pitting)
|
|
Calculation of load capacity of spur and helical gears — Part 2: Calculation of surface durability (pitting) — Technical Corrigendum 1
|
|
Calculation of load capacity of spur and helical gears — Part 2: Calculation of surface durability (pitting)
|
|
Calculation of load capacity of spur and helical gears — Part 3: Calculation of tooth bending strength
|
|
Calculation of load capacity of spur and helical gears — Part 3: Calculation of tooth bending strength — Technical Corrigendum 1
|
|
Calculation of load capacity of spur and helical gears — Part 3: Calculation of tooth bending strength
|
|
Calculation of load capacity of spur and helical gears — Part 3: Calculation of tooth bending strength — Technical Corrigendum 1
|
|
Calculation of load capacity of spur and helical gears — Part 3: Calculation of tooth bending strength
|
|
Calculation of load capacity of spur and helical gears — Part 4: Calculation of tooth flank fracture load capacity
|
|
Calculation of load capacity of spur and helical gears — Part 5: Strength and quality of materials
|
|
Calculation of load capacity of spur and helical gears — Part 5: Strength and quality of materials
|
|
Calculation of load capacity of spur and helical gears — Part 5: Strength and quality of materials
|
|
Calculation of load capacity of spur and helical gears — Part 6: Calculation of service life under variable load
|
|
Calculation of load capacity of spur and helical gears — Part 6: Calculation of service life under variable load — Technical Corrigendum 1
|
|
Calculation of load capacity of spur and helical gears — Part 6: Calculation of service life under variable load
|
|
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
|
|
Calculation of load capacity of spur and helical gears — Part 20: Calculation of scuffing load capacity — Flash temperature method
|
|
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
|
|
Calculation of load capacity of spur and helical gears — Part 21: Calculation of scuffing load capacity — Integral temperature method
|
|
Calculation of load capacity of spur and helical gears — Part 22: Calculation of micropitting load capacity
|
|
Calculation of load capacity of spur and helical gears — Part 30: Calculation examples for the application of ISO 6336 parts 1,2,3,5
|
|
Calculation of load capacity of spur and helical gears — Part 30: Calculation examples for the application of ISO 6336 parts 1,2,3,5
|
|
Calculation of load capacity of spur and helical gears — Part 31: Calculation examples of micropitting load capacity
|
|
Acceptance code for gears — Part 1: Determination of airborne sound power levels emitted by gear units
|
|
Acceptance code for gear units — Part 1: Test code for airborne sound
|
|
Acceptance code for gears — Part 2: Determination of mechanical vibrations of gear units during acceptance testing
|
|
Calculation of load capacity of spur and helical gears — Application to marine gears
|
|
Calculation of load capacity of spur and helical gears — Application to high speed gears and gears of similar requirements
|
|
Calculation of load capacity of spur and helical gears — Application for industrial gears
|
|
Code of inspection practice — Part 1: Inspection of corresponding flanks of gear teeth
|
|
Code of inspection practice — Part 1: Inspection of corresponding flanks of gear teeth — Technical Corrigendum 1
|
|
Code of inspection practice — Part 1: Measurement of cylindrical gear tooth flanks
|
|
Code of inspection practice — Part 1: Measurement of cylindrical gear tooth flanks
|
|
Code of inspection practice — Part 2: Inspection related to radial composite deviations, runout, tooth thickness and backlash
|
|
Code of inspection practice — Part 2: Inspection related to radial composite deviations, runout, tooth thickness and backlash — Technical Corrigendum 1
|
|
Code of inspection practice — Part 2: Inspection related to radial composite deviations, runout, tooth thickness and backlash — Technical Corrigendum 2
|
|
Code of inspection practice — Part 2: Double Flank Radial Composite Measurements
|
|
Code of inspection practice — Part 3: Recommendations relative to gear blanks, shaft centre distance and parallelism of axes
|
|
Code of inspection practice — Part 3: Recommendations relative to gear blanks, shaft centre distance and parallelism of axes — Technical Corrigendum 1
|
|
Code of inspection practice — Part 4: Recommendations relative to surface texture and tooth contact pattern checking
|
|
Code of inspection practice — Part 4: Recommendations relative to surface texture and tooth contact pattern checking — Technical Corrigendum 1
|
|
Code of inspection practice — Part 5: Recommendations relative to evaluation of gear measuring instruments
|
|
Code of inspection practice — Part 5: Recommendations relative to evaluation of gear measuring instruments — Technical Corrigendum 1
|
|
Code of inspection practice — Part 6: Bevel gear measurement methods
|
|
Calculation of load capacity of bevel gears — Part 1: Introduction and general influence factors
|
|
Calculation of load capacity of bevel gears — Part 1: Introduction and general influence factors
|
|
Calculation of load capacity of bevel gears — Part 1: Introduction and general influence factors
|
|
Calculation of load capacity of bevel gears — Part 2: Calculation of surface durability (pitting)
|
|
Calculation of load capacity of bevel gears — Part 2: Calculation of surface durability (pitting)
|
|
Calculation of load capacity of bevel gears — Part 2: Calculation of surface durability (macropitting)
|
|
Calculation of load capacity of bevel gears — Part 3: Calculation of tooth root strength
|
|
Calculation of load capacity of bevel gears — Part 3: Calculation of tooth root strength
|
|
Calculation of load capacity of bevel gears — Part 3: Calculation of tooth root strength
|
|
Calculation of load capacity of bevel gears — Part 20: Calculation of scuffing load capacity — Flash temperature method
|
|
Calculation of load capacity of bevel gears — Part 30: ISO rating system for bevel and hypoid gears — Sample calculations
|
|
Calculation of load capacity of bevel gears — Part 30: ISO rating system for bevel and hypoid gears — Sample calculations
|
|
Calculation of load capacity of bevel gears — Part 32: ISO rating system for bevel and hypoid gears — Sample calculation for scuffing load capacity
|
|
Worm gears — Geometry of worms — Name plates for worm gear units centre distances, information to be supplied to gear manufacturer by the purchaser
|
|
Cylindrical gears — Calculation of service life under variable loads — Conditions for cylindrical gears according to ISO 6336
|
|
Gears — Wear and damage to gear teeth — Part 1: Nomenclature and characteristics
|
|
Gears — Wear and damage to gear teeth — Part 2: Supplementary information
|
|
Gears — Wear and damage to gear teeth — Terminology
|
|
Worm gears — Geometry of worm profiles — Technical Corrigendum 1
|
|
Worm gears — Worm profiles and gear mesh geometry
|
|
Worm gears — Geometry of worm profiles
|
|
Worm gears — Worm profiles and gear mesh geometry
|
|
Enclosed gear drives for industrial applications
|
|
Enclosed gear drives for industrial applications — Technical Corrigendum 1
|
|
Petroleum and natural gas industries — High-speed special-purpose gear units
|
|
Calculation of scuffing load capacity of cylindrical, bevel and hypoid gears — Part 1: Flash temperature method
|
|
Calculation of scuffing load capacity of cylindrical, bevel and hypoid gears — Part 2: Integral temperature method
|
|
Gears — Surface temper etch inspection after grinding
|
|
Gears — Surface temper etch inspection after grinding, chemical method
|
|
Gears — Surface temper etch inspection after grinding, chemical method
|
|
Gears — Thermal capacity — Part 1: Rating gear drives with thermal equilibrium at 95 °C sump temperature
|
|
Gears — Thermal capacity — Part 2: Thermal load-carrying capacity
|
|
Gears — Calculation of load capacity of wormgears
|
|
Gears — Calculation of load capacity of worm gears
|
|
Gears — FZG test procedures — Part 1: FZG test method A/8,3/90 for relative scuffing load-carrying capacity of oils
|
|
Gears — FZG test procedures — Part 1: FZG test method A/8,3/90 for relative scuffing load-carrying capacity of oils
|
|
Gears — FZG test procedures — Part 2: FZG step load test A10/16, 6R/120 for relative scuffing load-carrying capacity of high EP oils
|
|
Gears — FZG test procedures — Part 2: FZG step load test A10/16, 6R/120 for relative scuffing load-carrying capacity of high EP oils
|
|
Gears — FZG test procedures — Part 3: FZG test method A/2, 8/50 for relative scuffing load-carrying capacity and wear characteristics of semifluid gear greases
|
|
Gears — FZG test procedures — Part 3: FZG test method A/2,8/50 for relative scuffing load-carrying capacity and wear characteristics of semifluid gear greases
|
|
Calculation of micropitting load capacity of cylindrical spur and helical gears — Part 1: Introduction and basic principles
|
|
Calculation of micropitting load capacity of cylindrical spur and helical gears — Part 1: Introduction and basic principles
|
|
Calculation of micropitting load capacity of cylindrical spur and helical gears — Part 2: Examples of calculation for micropitting
|
|
Bevel gears — ISO system of accuracy
|
|
Gears — Evaluation of instruments for the measurement of individual gears
|
|
Lubrication of industrial gear drives
|
|
Cylindrical involute gears and gear pairs — Part 1: Concepts and geometry
|
|
Cylindrical involute gears and gear pairs — Part 2: Calculation and measurement of tooth thickness and backlash
|
|
Gears — Cylindrical involute gears and gear pairs — Concepts and geometry
|
|
Design recommendations for bevel gears
|
|
Bevel and hypoid gear geometry — Part 1: Basic methods
|
|
Bevel and hypoid gear geometry
|
|
Bevel and hypoid gear geometry
|
|
Wind turbines — Part 4: Design requirements for wind turbine gearboxes
|
|
Wind energy generation systems — Part 4: Design requirements for wind turbine gearboxes
|
|
Wind energy generation systems — Part 4-3: Explanatory notes on IEC 61400-4 - Supportive information for wind turbine gearbox design
|
|
Wind turbines — Part 4: Design and specification of gearboxes
|
|
Wind turbines — Part 4: Design and specification of gearboxes — Technical Corrigendum 1
|
|
mise à jour du document
|
