書籍タイトル | Progress in Advanced Structural and Functional Materials Design |
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編集者 | 掛下知行(G-COEプログラム「構造・機能先進材料デザイン教育研究拠点」拠点リーダー,大阪大学大学院工学研究科長,教授) |
出版社 | Springer http://www.springer.com/materials/structural+materials/book/978-4-431-54063-2 |
ISBN-10 | 4431540636 |
ISBN-13 | 978-4431540632 |
発行予定日 | 2012年7月予定 |
本教科書の内容は,2007年度から2011年度の5年間に,大阪大学において実施されたG-COEプログラム「構造・機能先進材料デザイン教育研究拠点」における教育研究成果に基づいています.特に,本拠点でターゲットした「ハードな結晶性材料」に対して,バルク材料からナノ材料に対する物性,力学機能,生産プロセス,構造,機能評価,溶接技術,リサイクル技術を包括する様々な研究成果を,原理・基礎から最先端研究成果に渡ってまとめた教科書となっています。
本教科書は,本G-COE拠点で実施した3つの研究プロジェクトをベースとした3つのセクションから構成されており,23名の事業推進担当者が,それぞれが担当する研究プロジェクトに関する成果を1つの章(Chapter)にまとめた23章構成となっています。
Section A Advanced Materials Research Project for Structural Applications
Chapter 1 | Identification of Vacancy Site in B2 ordered Alloys by Positron Lifetime Spectroscopy |
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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 |
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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 |
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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 |