The Maxwell stability criterion in pseudo-energy models of kink banding

Kink banding, common to many structures in nature and engineering, has several distinctive features-notably highly nonlinear snap-back instability leading to localization and sequential lock-up. The proposed friction model, although simplified, introduces these defining characteristics without obscuring them by including other effects of lesser immediate significance. In the absence of small imperfections or disturbances, linearized theory suggests that in its pre-kinked configuration the system never goes unstable. However, under sufficient applied end-displacement it is in a state of extreme metastability, such that micro-disturbances would trigger a non-linear response. This is overcome when an energy approach based on a global rather than a local stability criterion is used. When applied to imperfect systems with small initial misalignments, the critical displacement thus defined shows little of the sensitivity expected from other stability criteria, and provides a lower bound on the expected critical displacement and associated load. (C) 2000 Elsevier Science Ltd. All rights reserved.