论文信息 - Identification of Nonlinear Micron-Level Mechanics for a Precision Deployable Joint

Identification of Nonlinear Micron-Level Mechanics for a Precision Deployable Joint

The experimental identification of micron-level nonlinear joint mechanics and dynamics for a pin-clevis joint used in a precision, adaptive, deployable space structure are investigated. The force-state mapping method is used to identify the behavior of the joint under a preload. The results of applying a single tension-compression cycle to the joint under a tensile preload are presented. The observed micron-level behavior is highly nonlinear and involves all six rigid body motion degrees-of-freedom of the joint. it is also suggests that at micron levels of motion modelling of the joint mechanics and dynamics must include the interactions between all internal components, such as the pin, bushings, and the joint node.

L. D. Peterson | S. J. Bullock

[1] Marvin D. Rhodes. Design considerations for joints in deployable space truss structures , 1986 .

[2] S. Masri,et al. Nonparametric Identification of Nearly Arbitrary Nonlinear Systems , 1982 .

[3] M. A. Al-Hadid,et al. Developments in the force-state mapping technique for non-linear systems and the extension to the location of non-linear elements in a lumped-parameter system , 1989 .

[4] Sami F. Masri,et al. A Nonparametric Identification Technique for Nonlinear Dynamic Problems , 1979 .

[5] Brett P. Masters,et al. Multiple degree of freedom force-state component identification , 1993 .

[6] Keith Worden. Parametric and nonparametric identification of nonlinearity in structural dynamics , 1989 .

[7] Edward F. Crawley,et al. Identification of nonlinear structural elements by force-state mapping , 1984 .