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Parametric analysis of ring gear structure vibration modes
Romil P. Tanna,
Teik C. Lim
Research output
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Contribution to journal
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Article
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peer-review
4
Scopus citations
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Dive into the research topics of 'Parametric analysis of ring gear structure vibration modes'. Together they form a unique fingerprint.
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Keyphrases
Vibration Mode
100%
Parametric Analysis
100%
Gear Structure
100%
Structure Vibration
100%
Ring Gear
100%
Splines
66%
Rim Thickness
66%
Number of Teeth
66%
Out-of-plane Bending
66%
Inextensional
66%
Design Parameters
33%
Transmission Error
33%
Error Excitation
33%
Noise Level
33%
Radius Ratio
33%
Robust Design
33%
Geometrical Parameters
33%
Angular Width
33%
Transmissibility
33%
Eigensolution
33%
Structural Mode
33%
Natural Frequency Sensitivity
33%
Gear Noise
33%
Ring Mode
33%
Gear Whine
33%
Width Ratio
33%
Planetary Rings
33%
Gear Design
33%
Helix Angle
33%
Dynamic Finite Element Method
33%
Engineering
Vibration Mode
100%
Parametric Analysis
100%
Ring Gear
100%
Plane Bending
66%
Finite Element Method
33%
Design Parameter
33%
Transmission Error
33%
Noise Level
33%
Robust Design
33%
Geometrical Parameter
33%
Natural Frequency
33%
Ring Mode
33%
Helix Angle
33%
Angular Width
33%
Transmissibility
33%