1st International Conference on 3D Materials Science, 2012
Conference Proceedings
1. Auflage
Erschienen am 2. Dezember 2016
XIII, 242 Seiten
978-3-319-48762-5 (ISBN)
Beschreibung
Addressing a critical growth area in materials science, this volume features papers presented at the 2012 International Conference on 3D Materials Science, organized by The Minerals, Metals & Materials Society (TMS). With the top researchers in the world assessing the state-of-the-art within the various elements of three-dimensional materials science, this collection provides the premier forum for authoritative presentations on all aspects of the science, including characterization, visualization, quantitative analysis, modeling, and investigation of structure-property relationships of materials.
Weitere Details
Weitere Ausgaben
Personen
The Minerals, Metals & Materials Society (TMS) is a member-driven international professional society dedicated to fostering the exchange of learning and ideas across the entire range of materials science and engineering, from minerals processing and primary metals production, to basic research and the advanced applications of materials. Included among its nearly 13,000 professional and student members are metallurgical and materials engineers, scientists, researchers, educators, and administrators from more than 70 countries on six continents. For more information on TMS, visit www.tms.org.
Inhalt
1 - Cover [Seite 1]
2 - Title Page [Seite 2]
3 - Copyright Page [Seite 3]
4 - Table of Contents [Seite 4]
5 - Preface [Seite 7]
6 - About the Conference Editors/Organizers [Seite 8]
7 - Organizers [Seite 10]
8 - Perspectives on 3D Materials Science [Seite 11]
8.1 - Perspectives on Materials Science in 3D [Seite 11]
9 - 3D Microstructure-Property Relationships [Seite 22]
9.1 - 3D Investigation of Cracking Behavior in a Ni Superalloy [Seite 22]
9.2 - On the Three-dimensional Microstructure of Martensite in Carbon Steels [Seite 28]
9.3 - FIB/SEM Determination of Sub-surface Damage Caused by Micro-tribology Scratching of WC/Co Hardmetal Samples [Seite 34]
9.4 - 3D Characterization of Recrystallization Boundaries [Seite 40]
9.5 - Development of Fully Automated Serial-sectioning 3D Microscope and Topological Approach to Pearlite and Dual-phase Miscrostructure in Steels [Seite 46]
9.6 - Fragmentation of a Steel Ring under Explosive Loading [Seite 52]
9.7 - Quantifying the Effect of 3D Spatial Resolution on the Accuracy of Microstructural Distributions [Seite 58]
9.8 - Three-dimensional Investigation of Void Growth Leading to Fracture in Commercially Pure Titanium [Seite 69]
9.9 - Quantification of Primary Phase Undercooling of Rapidly Solidified Droplets with 3D Microtomography [Seite 75]
9.10 - 3D Microstructural Architectures for Metal and Alloy Components Fabricated by 3D Printing/Additive Manufacturing Technologies [Seite 81]
9.11 - Elastic Behavior of the Percolating Eutectic Structure of a High Pressure Die Cast Magnesium Alloy [Seite 87]
9.12 - Numerical Simulations of Compression Properties of SiC/Fe-20Cr Co-continuous Composites [Seite 92]
9.13 - Calculation of Lorentz Force Field of the Innovation Cathode Cell [Seite 98]
9.14 - Enumeration of Polyhedra for Grain Growth Analysis [Seite 104]
9.15 - Distribution of Carbide Particles and Its Influence on Grain Growth of Ferrite in Fe-C Alloys Containing B and V [Seite 114]
9.16 - Modeling Grain Boundary Interfaces in Pure Nickel [Seite 120]
9.17 - A Toolbox for Geometric Grain Boundary Characterization [Seite 126]
9.18 - 3D Microstructures of Sb2Te3 Precipitates in PbTe Matrix with Prediction by a Weak Compatibility Condition [Seite 132]
9.19 - In-situ Characterization of Entrainment Defects in Liquid Al-Si-Mg Alloy [Seite 138]
10 - Image Processing and Digital Representations of 3D Microstructures [Seite 144]
10.1 - Shape Analysis and Classification of Objects [Seite 144]
10.2 - Graph Cut Approaches for Materials Segmentation Preserving Shape, Appearance, and Topology [Seite 154]
10.3 - Fitting Laguerre Tessellations to the Microstructure of Cellular Materials [Seite 160]
10.4 - Simulation of FIB-SEM Images for Segmentation of Porous Microstructures [Seite 166]
10.5 - Handling Misalignment and Drift in 3D EBSD Data Sets [Seite 172]
10.6 - Optimizing Stochastic Process for Efficient Microstructure Reconstruction [Seite 178]
10.7 - Characterization of Pores and Cracks in Underwater Welds by ?CT and Digital Optical Microscopy [Seite 184]
10.8 - Characterization of Carbonate Rocks through X-ray Microtomography [Seite 190]
10.9 - Subgrain Boundary Identification in 3D EBSD Data through Fast Multiscale Clustering [Seite 196]
11 - Applications of 3D Experimental Techniques Across Length Scales [Seite 202]
11.1 - An Automated Multi-modal Serial Sectioning System for Characterization of Grain-Scale Microstructures in Engineering Materials [Seite 202]
11.2 - Ultra Fast Tomography: New Developments for 4D Studies in Material Science [Seite 210]
11.3 - Three-dimensional Characterization of Dislocation-Defect Interactions [Seite 216]
11.4 - The Microstructure of RR1000 Nickel-base Superalloy: The FIB-SEM Dual-beam Approach [Seite 222]
11.5 - 3D Analysis of Phase Separation in Ferritic Stainless Steels [Seite 228]
11.6 - Micro-computed Tomography, a 3D Tool for Non-destructive Visualisation and Analysis [Seite 234]
11.7 - SEM-based Electron Tomography of Turfs Comprised of Lineal Structures [Seite 240]
12 - Author Index [Seite 246]
13 - Subject Index [Seite 248]
2 - Title Page [Seite 2]
3 - Copyright Page [Seite 3]
4 - Table of Contents [Seite 4]
5 - Preface [Seite 7]
6 - About the Conference Editors/Organizers [Seite 8]
7 - Organizers [Seite 10]
8 - Perspectives on 3D Materials Science [Seite 11]
8.1 - Perspectives on Materials Science in 3D [Seite 11]
9 - 3D Microstructure-Property Relationships [Seite 22]
9.1 - 3D Investigation of Cracking Behavior in a Ni Superalloy [Seite 22]
9.2 - On the Three-dimensional Microstructure of Martensite in Carbon Steels [Seite 28]
9.3 - FIB/SEM Determination of Sub-surface Damage Caused by Micro-tribology Scratching of WC/Co Hardmetal Samples [Seite 34]
9.4 - 3D Characterization of Recrystallization Boundaries [Seite 40]
9.5 - Development of Fully Automated Serial-sectioning 3D Microscope and Topological Approach to Pearlite and Dual-phase Miscrostructure in Steels [Seite 46]
9.6 - Fragmentation of a Steel Ring under Explosive Loading [Seite 52]
9.7 - Quantifying the Effect of 3D Spatial Resolution on the Accuracy of Microstructural Distributions [Seite 58]
9.8 - Three-dimensional Investigation of Void Growth Leading to Fracture in Commercially Pure Titanium [Seite 69]
9.9 - Quantification of Primary Phase Undercooling of Rapidly Solidified Droplets with 3D Microtomography [Seite 75]
9.10 - 3D Microstructural Architectures for Metal and Alloy Components Fabricated by 3D Printing/Additive Manufacturing Technologies [Seite 81]
9.11 - Elastic Behavior of the Percolating Eutectic Structure of a High Pressure Die Cast Magnesium Alloy [Seite 87]
9.12 - Numerical Simulations of Compression Properties of SiC/Fe-20Cr Co-continuous Composites [Seite 92]
9.13 - Calculation of Lorentz Force Field of the Innovation Cathode Cell [Seite 98]
9.14 - Enumeration of Polyhedra for Grain Growth Analysis [Seite 104]
9.15 - Distribution of Carbide Particles and Its Influence on Grain Growth of Ferrite in Fe-C Alloys Containing B and V [Seite 114]
9.16 - Modeling Grain Boundary Interfaces in Pure Nickel [Seite 120]
9.17 - A Toolbox for Geometric Grain Boundary Characterization [Seite 126]
9.18 - 3D Microstructures of Sb2Te3 Precipitates in PbTe Matrix with Prediction by a Weak Compatibility Condition [Seite 132]
9.19 - In-situ Characterization of Entrainment Defects in Liquid Al-Si-Mg Alloy [Seite 138]
10 - Image Processing and Digital Representations of 3D Microstructures [Seite 144]
10.1 - Shape Analysis and Classification of Objects [Seite 144]
10.2 - Graph Cut Approaches for Materials Segmentation Preserving Shape, Appearance, and Topology [Seite 154]
10.3 - Fitting Laguerre Tessellations to the Microstructure of Cellular Materials [Seite 160]
10.4 - Simulation of FIB-SEM Images for Segmentation of Porous Microstructures [Seite 166]
10.5 - Handling Misalignment and Drift in 3D EBSD Data Sets [Seite 172]
10.6 - Optimizing Stochastic Process for Efficient Microstructure Reconstruction [Seite 178]
10.7 - Characterization of Pores and Cracks in Underwater Welds by ?CT and Digital Optical Microscopy [Seite 184]
10.8 - Characterization of Carbonate Rocks through X-ray Microtomography [Seite 190]
10.9 - Subgrain Boundary Identification in 3D EBSD Data through Fast Multiscale Clustering [Seite 196]
11 - Applications of 3D Experimental Techniques Across Length Scales [Seite 202]
11.1 - An Automated Multi-modal Serial Sectioning System for Characterization of Grain-Scale Microstructures in Engineering Materials [Seite 202]
11.2 - Ultra Fast Tomography: New Developments for 4D Studies in Material Science [Seite 210]
11.3 - Three-dimensional Characterization of Dislocation-Defect Interactions [Seite 216]
11.4 - The Microstructure of RR1000 Nickel-base Superalloy: The FIB-SEM Dual-beam Approach [Seite 222]
11.5 - 3D Analysis of Phase Separation in Ferritic Stainless Steels [Seite 228]
11.6 - Micro-computed Tomography, a 3D Tool for Non-destructive Visualisation and Analysis [Seite 234]
11.7 - SEM-based Electron Tomography of Turfs Comprised of Lineal Structures [Seite 240]
12 - Author Index [Seite 246]
13 - Subject Index [Seite 248]
