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Full Description
This book demonstrates the potential of novel in-situ experiments, performed on microscopic and macroscopic length scales, for investigating localized deformation processes in metallic materials, particularly their kinetics and the associated evolution of local strain fields. It features a broad methodological portfolio, spanning optical and electron microscopy, digital image correlation, infrared theromgraphy and acoustic emission testing, and particularly focuses on identifying the localized microscopic deformation processes in high-strength/high-ductility CrMnNi TRIP/TWIP (TRansformation Induced Plasticity/TWinning Induced Plasticity) steels. Presenting state-of-the art methodology applied to topical and pertinent problems in materials engineering, this book is a valuable resource for researchers and graduate students working in the field of plasticity and deformation of structural materials.
Contents
Motivation.- Plastic deformation and strain localizations.- Martensitic phase transformation.- Advanced high-strength steels.- In situ techniques for characterization of strain localizations and time sequence of deformation processes.- Object of investigations - High-alloy Fe-16Cr-6Mn-xNi-0.05C cast steels with TRIP/ TWIP effect.- Case studies on localized deformation processes in high-alloy Fe-16Cr-6Mn-xNi-0.05C cast steels.- Prospects of complementary in situ techniques.- Concluding remarks.
