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The research achievements of Global COE for five years will be published as a text book.

Title Progress in Advanced Structural and Functional Materials Design
Editor Tomoyuki Kakeshita ( Global COE program leader )
Publisher Springer http://www.springer.com/materials/structural+materials/book/978-4-431-54063-2
ISBN-10 4431540636
ISBN-13 978-4431540632
Date of publish July 2012

Contents of the Book

Section A Advanced Materials Research Project for Structural Applications

Chapter 1 Identification of Vacancy Site in B2 ordered Alloys by Positron Lifetime Spectroscopy
Chapter 2 Advanced Materials Design with Forming
Chapter 3 Fabrication of Porous Metals with Slender Directional Pores
Chapter 4 Modeling of Arc Welding Process
Chapter 5 Advanced Materials Design using Lasers
Chapter 6 Advanced Material Designs using FSW Technique
Chapter 7 Advanced Analysis of Surface Films Formed on Passive Metals and Alloys using X-ray photoelectron spectroscopy (XPS)
Chapter 8 Advanced Numerical Simulations of Micro-, Macro-, and Mega-Scale Structurization
Chapter 9 Advanced Analysis of Solidification by X-ray Imaging

Section B Advanced Materials Research Project for Combined Structural and Functional Applications

Chapter 10 Advanced Materials Design by Microstructure Control under Magnetic Field
Chapter 11 Eco-friendly Materials Recycling Processing
Chapter 12 Advanced Materials Design by Electrochemical Approach - Self-organizing Anodization
Chapter 13 Advanced Materials Design by Irradiation of High Energy Particles
Chapter 14 Advanced Analysis and Control of Bone Microstructure Based on a Materials Scientific Study Including Microbeam X-Ray Diffraction
Chapter 15 Advanced Materials Design by Controlling Transformation Temperature using Magnetic Field
Chapter 16 Advanced Materials Design for Fe-based Shape Memory Alloys through Structural Control

Section B Advanced Materials Research Project for Combined Structural and Functional Applications

Chapter 17 Fabrication of Photonic Crystals by Stereolithography Technique
Chapter 18 Design, Fabrication, and Properties of Nanomaterials using Ultrathin Film Techniques
Chapter 19 Advanced Materials Design via Low-damage Plasma Processes
Chapter 20 Advanced Analysis of Magnetic Structure in Materials
Chapter 21 Advanced Materials Design by Lithography Technique
Chapter 22 Advanced Materials Design of Rare-earth-doped Semiconductors by Organometallic Vapor Phase Epitaxy
Chapter 23 Advanced Analysis of Defect Formations and Phase Transformations in Nanoparticles by in situ Transmission Electron Microscopy