Biermann H., Aneziris C.G. (Eds.) Austenitic TRIP/TWIP Steels and Steel-Zirconia Composites: Design of Tough, Transformation-Strengthened Composites and Structures

Springer, 2020. — 841 p. — (Springer Series in Materials Science 298). — ISBN: 978-3-030-42602-6.This open access book presents a collection of the most up-to-date research results in the field of steel development with a focus on pioneering alloy concepts that result in previously unattainable materials properties. Specifically, it gives a detailed overview of the marriage of high-performance steels of the highest strength and form-ability with damage-tolerant zirconia ceramics by innovative manufacturing technologies, thereby yielding a new class of high-performance composite materials. This book describes how new high-alloy stainless TRIP/TWIP steels (TRIP: TRansformation-Induced Plasticity, TWIP: TWinning-induced Plasticity) are combined with zirconium dioxide ceramics in powder metallurgical routes and via melt infiltration to form novel TRIP-matrix composites. This work also provides a timely perspective on new compact and damage-tolerant composite materials, filigree light-weight structures as well as gradient materials, and a close understanding of the mechanisms of the phase transformations.
With a detailed application analysis of state-of-the-art methods in spatial and temporal high-resolution structural analysis, in combination with advanced simulation and modelling, this edited volume is ideal for researchers and engineers working in modern steel development, as well as for graduate students of metallurgy and materials science and engineering.Ceramic Casting Technologies for Fine and Coarse Grained TRIP-Matrix-Composites
Design of High Alloy Austenitic CrMnNi Steels Exhibiting TRIP/TWIP Properties
Tailoring of Thermophysical Properties of New TRIP/TWIP Steel Alloys to Optimize Gas Atomization
Production of Ceramic Steel Composite Castings Through Infiltration
Ceramic Extrusion Technologies for Fine Grained TRIP Matrix Composite Materials
Understanding of Processing, Microstructure and Property Correlations During Different Sintering Treatments of TRIP-Matrix-Composites
Understanding of Processing, Microstructure and Property Correlations for Flat Rolling of Presintered TRIP-Matrix Composites
Powder Forging of Presintered TRIP-Matrix Composites
Synthesis of TRIP Matrix Composites by Field Assisted Sintering Technology—Challenges and Results
Electron Beam Technologies for the Joining of High Alloy TRIP/TWIP Steels and Steel-Matrix Composites
Microstructure Aspects of the Deformation Mechanisms in Metastable Austenitic Steels
Investigations on the Influence of Strain Rate, Temperature and Reinforcement on Strength and Deformation Behavior of CrMnNi-Steels
Cyclic Deformation and Fatigue Behavior of Metastable Austenitic Steels and Steel-Matrix-Composites
Behaviour of Metastable and Stable Austenitic Stainless Steels Under Planar-Biaxial Load
Scanning Electron Microscopy and Complementary In Situ Characterization Techniques for Characterization of Deformation and Damage Processes
X-Ray Computer Tomography for Three-Dimensional Characterization of Deformation and Damage Processes
The Corrosion Behavior of High-Alloy CrMnNi Steels—A Research Work on Electrochemical Degradation in Salt- and Acid-Containing Environments
CFD Analysis of the Particle and Melt Flow Behavior During Fabrication and Processing of TRIP-Matrix-Composites
Thermodynamic Modelling in the Frames of the TRIP-Matrix-Composite Development
Thermodynamic-Mechanical Modeling of Metastable High Alloy Austenitic CrMnNi Steels
Multi-scale Modeling of Partially Stabilized Zirconia with Applications to TRIP-Matrix Composites
Modeling of the Thermomechanical Behavior, Damage, and Fracture of High Alloy TRIP-Steel
Properties of Phase Microstructures and Their Interaction with Dislocations in the Context of TRIP Steel Systems
Towards the Crystal Plasticity Based Modeling of TRIP-Steels—From Material Point to Structural Simulations