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Kinematic displacement analysis of a double-cardan-joint driveline
I. S. Fischer
, R. N. Paul
Mechanical and Industrial Engr
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Article
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peer-review
7
Scopus citations
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Keyphrases
Cardan Joint
100%
Displacement Analysis
100%
Driveline
100%
Kinematic Displacements
100%
Offset Angle
42%
Relative Phase
42%
Phase Angle
42%
Input-output
14%
Data Acquisition System
14%
Computer Data
14%
Joint Angle
14%
Manufacturing Tolerances
14%
Newton-Raphson Method
14%
Coordinate Transformation Matrix
14%
Dual numbers
14%
Joint Axis
14%
Constant Input
14%
Front-wheel Drive
14%
Intermediate Shaft
14%
Constant-velocity Coupling
14%
Powell Optimization Algorithm
14%
Steering Column
14%
Automobile Steering
14%
Link Length
14%
Output Displacement
14%
Output Shaft
14%
Optical Shaft Encoder
14%
Fletcher
14%
Engineering
Cardan Joint
100%
Driveline
100%
Phase Angle
85%
Joints (Structural Components)
57%
Relative Phase
42%
Data Acquisition System
14%
Angle Joint
14%
Manufacturing Tolerance
14%
Transformation Matrix
14%
Constant Velocity
14%
Coordinate Transformation
14%
Output Shaft
14%
Prevailing Condition
14%
Link Length
14%
Steering Column
14%
Newton-Raphson Method
14%
Front-Wheel Drive
14%
Displacement Relation
14%