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International Journal of Automotive Technology 2005;6(4): 375-381. |
| ELASTOKINEMATIC ANALYSIS OF A SUSPENSION SYSTEM WITH LINEAR RECURSIVE FORMULA |
| J. S. KANG |
| GM Daewoo Auto & Technology |
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| ABSTRACT |
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This paper presents linear algebraic equations in the form of recursive formula to compute elastokinematic characteristics of a suspension system. Conventional methods of elastokinematic analysis are based on nonlinear kinematic constrant equations and force equilibrium equations for constrained mechanical systems, which require complicated and time-consuming implicit computing methods to obtain the solution. The proposed linearized elastokinematic equations in the form of recursive formula are derived based on the assumption that the displacements of elastokinematic behavior of a constrained mechanical system under external forces are very small. The equations can be easily computerized in codes, and have the advantage of sharing the input data of existing general multibody dynamic analysis codes. The equations can be applied to any form of suspension once the type of kinematic joints and elastic components are identified. The validity of the method has been proved through the comparison of the results from established elastokinematic anlaysis software. Error estimation and analysis due to piecewise linear assumption are also discussed. |
| Key Words:
Elastokinematic analysis, Constraint mechanical system, Recursive formula, Linearized elastokinematic equation, Suspension system |
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