Contact Modeling in Multibody Systems with Elastic Bodies in High-Frequency Applications

The formalism of multibody systems offers a means of computer-assisted algorithmic analysis and a means of simulating and optimizing an arbitrary movement of a possible high number of elastic bodies in the connection [...]

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A Preprocessor for the Treatment of Elastic Bodies in Multibody Systems

13th Biennial Conference on Mechanical Vibration and Noise: Structural Vibration and Acoustics ◽

10.1115/detc1991-0212 ◽

1991 ◽

Author(s):

Kai Sorge ◽

Friedrich Pfeiffer

Keyword(s):

Multibody Systems ◽

Computational Effort ◽

Elastic Ring ◽

Elastic Bodies ◽

Symbolic Calculator

Abstract A preprocessor providing the inertia data of elastic bodies for multibody algorithms is considered. The desired capability of including stress stiffening terms leads to a high computational effort. The method presented allows a straight forward implementation of the basic formulas by starting with the development of a special purpose symbolic calculator. A rotating elastic ring serves as an example.

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Semi-Symbolical Equations of Motion for Flexible Multibody Systems

13th Computers in Engineering Conference ◽

10.1115/cie1993-0010 ◽

1993 ◽

Author(s):

Frank Melzer

Keyword(s):

Data Model ◽

Multibody Systems ◽

Equations Of Motion ◽

General Purpose ◽

Flexible Multibody Systems ◽

Dynamical Analysis ◽

Lightweight Structures ◽

Elastic Bodies ◽

Flexible Multibody ◽

Increasing Demand

Abstract The need for computer aided engineering in the analysis of machines and mechanisms led to a wide variety of general purpose programs for the dynamical analysis of multibody systems. In the past few years the incorporation of flexible bodies in this methodology has evolved to one of the major research topics in the field of multibody dynamics, due to the use of more lightweight structures and an increasing demand for high-precision mechanisms such as robots. This paper presents a formalism for flexible multibody systems based on a minimum set of generalized coordinates and symbolic computation. A standardized object-oriented data model is used for the system matrices, describing the elastodynamic behaviour of the flexible body. Consequently, the equations of motion are derived in a form independent of the chosen modelling technique for the elastic bodies.

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Circular Contact of Incompressible, Nonlinear-Elastic Bodies

ASME/STLE 2009 International Joint Tribology Conference ◽

10.1115/ijtc2009-15167 ◽

2009 ◽

Author(s):

Emanuel Diaconescu ◽

Marilena Glovnea ◽

Filip Ciutac

Keyword(s):

Nonlinear Elasticity ◽

Simple Approach ◽

Experimental Results ◽

Contact Modeling ◽

Elastic Bodies ◽

Nonlinear Elastic ◽

Theory And Experiments ◽

Circular Contact ◽

Good Agreement

Contact modeling of rubber bodies is based either on viscoelasticity, nonlinear elasticity or adhesion. This paper advances a simple approach to the analysis of the contacts involving incompressible, nonlinear elastic bodies and reports experimental results on rubber to justify this approach. A good agreement is found between theory and experiments.

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Aspects of Symbolic Formulations in Flexible Multibody Systems

Journal of Computational and Nonlinear Dynamics ◽

10.1115/1.4025897 ◽

2014 ◽

Vol 9 (4) ◽

Cited By ~ 3

Author(s):

Markus Burkhardt ◽

Robert Seifried ◽

Peter Eberhard

Keyword(s):

Multibody Systems ◽

Multibody System ◽

Dynamic Properties ◽

Equations Of Motion ◽

Flexible Multibody Systems ◽

Fem Model ◽

Local Shape ◽

Flexible Bodies ◽

Elastic Bodies ◽

Flexible Multibody

The symbolic modeling of flexible multibody systems is a challenging task. This is especially the case for complex-shaped elastic bodies, which are described by a numerical model, e.g., an FEM model. The kinematic and dynamic properties of the flexible body are in this case numerical and the elastic deformations are described with a certain number of local shape functions, which results in a large amount of data that have to be handled. Both attributes do not suggest the usage of symbolic tools to model a flexible multibody system. Nevertheless, there are several symbolic multibody codes that can treat flexible multibody systems in a very efficient way. In this paper, we present some of the modifications of the symbolic research code Neweul-M2 which are needed to support flexible bodies. On the basis of these modifications, the mentioned restrictions due to the numerical flexible bodies can be eliminated. Furthermore, it is possible to re-establish the symbolic character of the created equations of motion even in the presence of these solely numerical flexible bodies.

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Hertz Model Based Contact Modeling for Joints with Clearance

MATEC Web of Conferences ◽

10.1051/matecconf/201817901018 ◽

2018 ◽

Vol 179 ◽

pp. 01018

Author(s):

Jielong Wang ◽

Bing Shi

Keyword(s):

Multibody Systems ◽

Flexible Multibody Systems ◽

Contact Modeling ◽

Normal Contact ◽

Hertz Model ◽

Revolute Joints ◽

Flexible Multibody ◽

Contact Models ◽

Contact Impact ◽

The Relationship

This paper presents the techniques of contact modeling for revolute joints in flexible multibody systems, in which the dry clearance revolute joints have been coupled with the flexibility of connected bodies. The contact model for revolute joints takes into account the relative planar motion caused by the clearance between the outer and inner races. This model applies a penalty method to simulate the phenomenon of inner-penetration between contact/impact bodies. The relationship between the normal contact force and the inner-penetration is described by the nonlinear Hertz model with energy dissipation. Meanwhile, the friction force can be predicted from continuous Coulomb's law. Finally, an example of flexible multibody systems has been simulated by using the developed contact models.

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Modified Coordinates in Dynamics Simulation of Multibody Systems with Elastic Bodies

Advanced Computing in Industrial Mathematics - Studies in Computational Intelligence ◽

10.1007/978-3-319-65530-7_19 ◽

2017 ◽

pp. 217-227

Author(s):

Evtim V. Zahariev

Keyword(s):

Multibody Systems ◽

Dynamics Simulation ◽

Elastic Bodies ◽

Modified Coordinates

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Acoustic Resonance Scattering by Submerged Elastic Shells

Applied Mechanics Reviews ◽

10.1115/1.3119168 ◽

1990 ◽

Vol 43 (8) ◽

pp. 171-208 ◽

Cited By ~ 42

Author(s):

G. C. Gaunaurd ◽

M. F. Werby

Keyword(s):

High Frequency ◽

Asymptotic Methods ◽

Resonance Region ◽

Acoustic Resonance ◽

Resonance Scattering ◽

Elastic Shells ◽

Acoustic Wave Scattering ◽

Elastic Bodies ◽

Unbounded Media ◽

Numerical Approaches

We review a number of instances in which classical acoustic wave scattering from submerged elastic shells can be analyzed in the resonance region of their spectra. We recently reviewed (Refs 42, 43, 12) the cases dealing with acoustic resonance scattering from solid elastic bodies, or with elastic resonance scattering from fluid or solid inclusions in elastic media. It only remains for us to address the works dealing with submerged shells, which we analyze here. We study scattering by bare or viscoelastically coated spherical and cylindrical shells in water, by means of (exact) normal-mode solutions, and by spheroidal shells by numerical approaches, particularly via the T-matrix method. We consider the shell responses mostly in unbounded media and when the interrogating waves are plane and c.w., although some recent findings valid for pulsed incidences and in the vicinity of environmental boundaries are also included. We use the methodology of the resonance scattering theory (RST) as much as possible, emphasizing its post-1981 results. High-frequency findings, obtained by asymptotic methods, are extrapolated to lower frequencies, to confirm RST predictions for the intermediate spectral regions in which the most important structural resonances are known to reside. A large number of bibliographical entries are collected and discussed in connection with our approach.

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