Sensitivity analysis of frames with unspecified dynamic load and joint parameters accounting for damping

  • Zbigniew Pozorski Poznań University of Technology

Abstract

The paper is concerned with a class of generalized structural optimization problems, in which geometrical nonlinearities play an important role in a response of dynamically loaded structure. Forced, steady-state periodic vibrations of linear elastic frame and beam structures are considered. Both, viscous and complex modulus damping models are used. Using the adjoint variable method, sensitivity operators with respect to variation of stiffness, damping and mass parameters, as well as loading and support conditions are derived. The loading corresponds to an excitation induced by a rotational machine founded on vibroisolation. The forms of response functionals expressed in displacements are discussed. Numerical examples of frame structures illustrate the theory and demonstrate the accuracy of the derived sensitivity operators.

Keywords

sensitivity analysis, optimal design, second order geometric effects, structural dynamics, vibrations,

References

[1] B. Aakesson, N. Olhoff. Minimum stiffness of optimally located supports for maximum value of beam eigenfrequencies.
J. Sound Vibr., 120: 457- 463, 1988.
[2] D. Bojczuk, Z. Mróz. Sensitivity analysis for non-linear beams and frames. J. of Theor. and Appl. Mech. , 32:
867-886, 1994.
[3] W. Cohen, E.M. Lui. Effects of joint flexibility on the behavior of steel frames. Compo Struct., 26: 719- 732,
1987.
[4] A. Garstecki. Structural sensitivity for variable conditions of dynamic loading and damping. Z. Angew. Math.
Mech., 6: 559-560, 1992.
[5] A. Garstecki, K. Thermann. Sensitivity of frames to variations of hinges in dynamic and stability problems.
Struct. Optim.,4: 108-114, 1992.
Published
Sep 27, 2022
How to Cite
POZORSKI, Zbigniew. Sensitivity analysis of frames with unspecified dynamic load and joint parameters accounting for damping. Computer Assisted Methods in Engineering and Science, [S.l.], v. 13, n. 4, p. 641-653, sep. 2022. ISSN 2956-5839. Available at: <https://cames.ippt.gov.pl/index.php/cames/article/view/893>. Date accessed: 21 nov. 2024.
Section
Articles