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Full Description
ASM International and The Minerals, Metals and Materials Society (TMS) have collaborated to present a collection of the selected works of Dr. Greg B. Olson in honor of his 70th birthday in 2017. This collection highlights his influential contributions to the understanding of martensite transformations and the development and application of a systems design approach to materials.
Part I: Martensite, with an Introduction by Sir Harry Bhadeshia, emphasizes Dr. Olson's work to develop a dislocation theory for martensite transformations, to improve the understanding of the statistical nature of martensite nucleation, and to expand use of quantitative microscopy to characterize phase transformations.
Part II: Materials Design, with an Introduction by Dr. Charles Kuehmann, focuses on the application of a systems design approach to materials and the development of integrated computational design curriculum for undergraduate education. Part II includes several examples of the systems design approach to a variety of applications.
The papers chosen for this collection were selected by the editors with input from Dr. Olson.
Contents
Editors' Preface
Author's Preface
About the Author
Introduction to Part I: Martensite
Chapter 1 "Dislocation Theory of Martensitic Transformations,"
Chapter 2 "On the Hierarchy of Interfacial Dislocation Structure,"
Chapter 3 "Martensitic Nucleation,"
Chapter 4 "Statistical Aspects of Martensitic Nucleation,"
Chapter 5 "New Directions in Martensite Theory,"
Chapter 6 "Distributed-Activation Kinetics of HeterogeneousMartensitic Nucleation,"
Chapter 7 "Coupled Diffusional/Displacive Transformations,"
Chapter 8 "Kinetics of martensite transformations in steels,"
Chapter 9 "Spinodal Decomposition During Aging of Fe-Ni-C Martensites,"
Introduction to Part II: Materials Design
Chapter 10 "Computational Design of Hierarchically Structured Materials,"
Chapter 11 "Science of Steel,"
Chapter 12 "Designing a New Material World,"
Chapter 13 "Charge Transfer Mechanism of Hydrogen-Induced Intergranular Embrittlement of Iron,"
Chapter 14 "Influence of Alloying Additions on Grain Boundary Cohesion of Transition Metals: First-Principles Determination and Its Phenomenological Extension,"
Chapter 15 "Strong interface adhesion in Fe/TiC,"
Chapter 16 "Systems Design of High Performance Stainless Steels: I.Conceptual Design,"
Chapter 17 "Systems Design of High Performance Stainless Steels:II. Prototype Characterization,"
Chapter 18 "Computer-Aided Design of Transformation Toughened Blast-Resistant Naval Hull Steels: Part I,"
Chapter 19 "Prototype evaluation of transformation toughened blast resistant naval hull steels: Part II,"
Chapter 20 "Design of Heusler Precipitation Strengthened NiTi-and PdTi-Base SMAs for Cyclic Performance,"
Chapter 21 "ICME: Success Stories and Cultural Barriers,"
Chapter 22 "Computer Simulations for the Prediction of Microstructure/Property Variation in Aeroturbine Disks,"
Chapter 23"Precipitation Model Validation in 3rd Generation Aeroturbine Disc Alloys,"
Chapter 24 "Multiscale Ductile Fracture Integrating Tomographic Characterization and 3-D Simulation,"
Chapter 25 "3D Modeling of Subsurface Fatigue Crack NucleationPotency of Primary Inclusions in Heat Treated and Shot Peened Martensitic Gear Steels,"
Chapter 26 "Genomic Materials Design: The Ferrous Frontier,"
Chapter 27 "Materials Genomics: From CALPHAD to Flight,"
Chapter 28 "Cybermaterials: Materials by Design and Accelerated Insertion of Materials,"
Chapter 29 "Hierarchical Model for Coaching Technical Design Teams,"
Appendix
Patents and Publications
