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A parametric study on the dynamic response of planar multibody systems with multiple clearance joints
by
Flores, Paulo
in
Accuracy
/ Automotive Engineering
/ Classical Mechanics
/ Clearance joints
/ Computer simulation
/ Contact force
/ Contact forces
/ Control
/ Dynamic models
/ Dynamic response
/ Dynamical Systems
/ Embedded systems
/ Engineering
/ Friction effect
/ Impact loads
/ Mechanical Engineering
/ Mechanical systems
/ Multibody dynamics
/ Multibody systems
/ Original Paper
/ Parametric statistics
/ Physical properties
/ Vibration
2010
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A parametric study on the dynamic response of planar multibody systems with multiple clearance joints
by
Flores, Paulo
in
Accuracy
/ Automotive Engineering
/ Classical Mechanics
/ Clearance joints
/ Computer simulation
/ Contact force
/ Contact forces
/ Control
/ Dynamic models
/ Dynamic response
/ Dynamical Systems
/ Embedded systems
/ Engineering
/ Friction effect
/ Impact loads
/ Mechanical Engineering
/ Mechanical systems
/ Multibody dynamics
/ Multibody systems
/ Original Paper
/ Parametric statistics
/ Physical properties
/ Vibration
2010
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Do you wish to request the book?
A parametric study on the dynamic response of planar multibody systems with multiple clearance joints
by
Flores, Paulo
in
Accuracy
/ Automotive Engineering
/ Classical Mechanics
/ Clearance joints
/ Computer simulation
/ Contact force
/ Contact forces
/ Control
/ Dynamic models
/ Dynamic response
/ Dynamical Systems
/ Embedded systems
/ Engineering
/ Friction effect
/ Impact loads
/ Mechanical Engineering
/ Mechanical systems
/ Multibody dynamics
/ Multibody systems
/ Original Paper
/ Parametric statistics
/ Physical properties
/ Vibration
2010
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A parametric study on the dynamic response of planar multibody systems with multiple clearance joints
Journal Article
A parametric study on the dynamic response of planar multibody systems with multiple clearance joints
2010
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Overview
A general methodology for dynamic modeling and analysis of multibody systems with multiple clearance joints is presented and discussed in this paper. The joint components that constitute a real joint are modeled as colliding bodies, being their behavior influenced by geometric and physical properties of the contacting surfaces. A continuous contact force model, based on the elastic Hertz theory together with a dissipative term, is used to evaluate the intrajoint contact forces. Furthermore, the incorporation of the friction phenomenon, based on the classical Coulomb’s friction law, is also discussed. The suitable contact-impact force models are embedded into the dynamics of multibody systems methodologies. An elementary mechanical system is used to demonstrate the accuracy and efficiency of the presented approach, and to discuss the main assumptions and procedures adopted. Different test scenarios are considered with the purpose of performing a parametric study for quantifying the influence of the clearance size, input crank speed, and number of clearance joints on the dynamic response of multibody systems with multiple clearance joints. Additionally, the total computation time consumed in each simulation is evaluated in order to test the computational accuracy and efficiency of the presented approach. From the main results obtained in this study, it can be drawn that clearance size and the operating conditions play a crucial role in predicting accurately the dynamic responses of multibody systems.
Publisher
Springer Netherlands,Springer Nature B.V,Springer,Springer Verlag
Subject
/ Control
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