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Striving for high load capacity and low noise excitation in gear design
K. Stahl
,
M. Otto
, M. Zimmer
Gear Research Centre (FZG
Research output
:
Contribution to conference
›
Paper
›
peer-review
10
Scopus citations
Overview
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Dive into the research topics of 'Striving for high load capacity and low noise excitation in gear design'. Together they form a unique fingerprint.
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Keyphrases
Gear Design
100%
High Loading Capacity
100%
Noise Excitation
100%
Low Noise
100%
Calculation Method
66%
Gearbox
66%
Microgeometry
66%
Contact Condition
66%
Design Approach
33%
Beneficial Effects
33%
Design Process
33%
Early Design Phases
33%
Design Parameters
33%
Contact Pattern
33%
Design Change
33%
Load Pattern
33%
Contact Deformation
33%
Load Capacity
33%
Load Distribution
33%
Capacity Calculation
33%
Cylindrical Gear
33%
Macrogeometry
33%
Research Association
33%
Changing Profile
33%
Competing Goals
33%
Contact Ratio
33%
Meshing Clearance
33%
Load Noise
33%
Engineering
Load Capacity
100%
Gearbox
66%
Contact Condition
66%
Design Process
33%
Beneficial Effect
33%
Load Distribution
33%
Design Parameter
33%
Design Stage
33%
Design Change
33%
Cylindrical Gear
33%
Contact Ratio
33%