The Portevin-Le Chatelier Effect and Beyond

TL;DR

This paper explores the complex collective dynamics of crystal defects during plastic deformation in alloys, focusing on phenomena like serrated curves and localization, and discusses various regimes of dislocation behavior.

Contribution

It provides a comprehensive overview of the state-of-the-art in collective dislocation dynamics, highlighting different regimes and open questions in the field.

Findings

Identification of distinct regimes like self-organized criticality and chaos in dislocation dynamics

Analysis of collective defect behavior in binary alloys

Discussion of open questions on finer-scale plastic deformation

Abstract

The chapter presents the problem of the complexity of plastic flow in alloys, which is manifested by serrated deformation curves and transient plastic strain localizations. This phenomenon uncovers an inherently collective nature of the dynamics of crystal defects. The chapter discusses the state-of-the art of this research under the angle of distinct regimes of collective dislocation dynamics found in conventional, basically binary alloys, e.g., self-organized criticality, deterministic chaos, or synchronization. It concludes with the formulation of diverse open questions, notably concerning manifestations of the collective dislocation dynamics pertaining to finer scales of plastic deformation processes, as compared to the macroscopic plastic instability.