Modeling and Dynamic Analysis of a Slider-Crank Mechanism With Flexible Coupler and Joint

Authors

• Junghsen Lieh, Wright State University - Main CampusFollow
• Imtiaz Haque, Wright State University

Document Type

Article

Publication Date

1991

Find this in a Library

Catalog Record

Abstract

Modeling and dynamic analysis of a slider-crank mechanism with flexible joint and coupler is presented. The equations of motion of the mechanism model are formulated using a virtual work multibody formalism and cast in terms of a minimum set of generalized coordinates through a Jacobian matrix expansion. Numerical results show the influence of time-varying coefficients on the mechanism dynamic behavior due to a repeated task. The results illustrate that the joint motion and coupler deformation are highly coupled. The joint response is dominated by double frequency of input, however, the coupler deformation is influenced by the same frequency as that of excitation. Increase in joint stiffness tends to decrease the variations in coupler deformation.

Repository Citation

Lieh, J., & Haque, I. (1991). Modeling and Dynamic Analysis of a Slider-Crank Mechanism With Flexible Coupler and Joint. ASME 1991 Design Technical Conferences, DETC1991-0362, 73-78.
https://corescholar.libraries.wright.edu/mme/758

DOI

10.1115/DETC1991-0362