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Hitachi Works, Hitachi Ltd. | 論文
- Advanced Material Tokamak Experiment(AMTEX)Program with Ferritic Steel for JFT-2M
- Marked Change in Subcavitation-Cascade Performance Resulting from a Very Slight Modification in Leading Edges
- High-Quality, High-Rate SiO_2 and SiN Films Formed by 400 kHz Bias Electron Cyclotron Resonance-Chemical Vapor Deposition
- Effect of Zirconium Addition to Austenitic Stainless Steels on Suppression of Radiation Induced Chromium Segregation at Grain Boundaries under Ion Irradiation
- Radiation Induced Segregation at Grain Boundary in an Austenitic Stainless Steel under Ion Irradiation
- Segregation Behavior Induced by Various Particle Irradiations in Austenitic Stainless Steels
- Experimental Study of Unsteady Flow Behind a Francis Turbine Runner Exit
- LiNO_3 Addition to Prevent Hydrogen Gas Generation from Cement-Solidified Aluminum Wastes
- Unstable Flow Phenomena through a Pipe System with Cross Branch Pipe : Investigation of Flow Stabilizing Structure for Unstable Discharge Phenomena
- Copper Ion Deposition on Fuel Cladding under BWR Conditions
- Aluminum Corrosion under Alkaline Circumstances while LiN0_3 Concentration Is Lowered
- LiNO_3 Effect on Corrosion Prevention of Aluminum with Complex Shapes
- Effect of Environment on Static Tensile and Fatigue Properties of Ni-Ti-Nb Shape Memory Alloy
- Experimental Study on the Dynamic Buckling of Cylindrical Tanks : Comparison Between Static Buckling and Dynamic Buckling : Solid-Mechanics, Strength of Materials
- Resonance Characteristics of Turbine Blades with Compound Periodic Structure
- Investigation of Low Loss and High Reliability Encapsulation Technology in Large-Area, High-Power Semiconductor Devices
- Droplet Behavior Analyses in the BWR Dryer and Separator
- Heat and Mass Transfer in a Molten Carbonate Fuel Cell : Performance and Temperature Distribution in a Cell Stack
- Heat and Mass Transfer in a Molten Carbonate Fuel Cell (Experimental and Analytical Investigation of Fuel Cell Temperature Distribution)
- Feasibility investigation on a dual waste-plastics recycling system concept