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Department of Materials Science and Engineering, Kyoto University | 論文
- Mutual Separation Characteristics for Lanthanoid Elements via Gas Phase Complexes with Alkaline Chlorides
- Region-Wise Neutron Generation Times in Multi-Region Reactors
- Dislocation Density within Lath Martensite in Fe-C and Fe-Ni Alloys
- Effect of Carbon and Nickel Contents on Dislocation Structure in Ferrous Lath Martensite
- Molecular packing density of a self-assembled monolayer formed from N-(2-aminoethyl)-3-aminopropyltriethoxysilane by a vapor phase process.
- Morphology and Crystallography of Sub-Blocks in Ultra-Low Carbon Lath Martensite Steel
- Austenite Grain Refinement by Repeated Cycles of Austenitizing and Quenching
- 玉野製錬所ニカワ連続溶解設備導入によるニカワ・電力原単位削減
- Circular Arrays of Gold Nanoparticles of a Single Particle Line Thickness Formed on Indium Tin Oxide
- Microstructural Evolution during ARB Process of Al-0.2 mass% Sc Alloy Containing Al_3Sc Precipitates in Starting Structures
- Doping Effect on Interlocked Ferroelectric and Structural Antiphase Domains in YMnO (Special Issue : Ferroelectric Materials and Their Applications)
- Nanotemplate Prepared by Means of Vacuum Ultraviolet Patterning of Alkylsilane Self-assembled Monolayer on ITO Using a Porous Alumina Mask : Application to the Fabrication of Gold Nanoparticle Arrays
- Microstructure and Crystallographic Features of Martensite Transformed from Ultrafine-Grained Austenite in Fe-24Ni-0.3C Alloy
- Frequency Modulation Atomic Force Microscopy in Ionic Liquid Using Quartz Tuning Fork Sensors
- ZnOの電解析出 外部電源を使用しない酸化亜鉛の電解析出
- Relation of Shunting Current at Cracked Part to Critical Current and n-Value in Multifilamentary Bi2223 Composite Tape
- Direct Observation of Vacancies and Local Thermal Vibration in Thermoelectric Rhenium Silicide
- Boundary Condition for the Adjoint Flux Corresponding to the Flux Discontinuity of the Nodal Diffusion Equation in the Perturbation Theory
- Transdiaphragmatic intercostal hernia following blunt trauma
- Critical Current Control in YBa2Cu3O7-δ Films Using Artificial Pinning Centers