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Materials Research Laboratory Kobe Steel Ltd. | 論文
- Effect of P Content on Stress Relaxation and Clustering Behavior in Cu-Ni-P Alloys
- Hydrogen Trapping in Quenched and Tempered 0.42C-0.30Ti Steel Containing Bimodally Dispersed TiC Particles
- Hydrogen Trapping in Quenched and Tempered 0.42C-0.30Ti Steel Containing Bimodal Dispersions of TiC Particles
- Evaluation of Susceptibility to Hydrogen Embrittlement of 7075 Aluminum Alloy by Hydrogen Addition Using Flax-Treatment Method
- Evaluation of Internal Stresses in Single-, Double- and Multi-Layered TiN and TiAIN Thin Films by Synchrotron Radiation(Advanced Technology of Experimental Mechanics)
- OS4(5)-22(OS04W0203) Evaluation of Internal Stresses in Single-, Double- and Multi-Layered TiN and TiAlN Thin Films by Synchrotron Radiation
- Formation of Cerium-Filled Skutterudite Thermoelectric Materials Sintered from Gas-Atomized Powder
- Calculations of Internal Oxidation Rate Equations and Boundary Conditions between Internal and External Oxidation in Silicon Containing Steels
- Physical Properties of Iron-Oxide Scales on Si-Containing Steels at High Temperature
- Properties of Germanium-Doped Indium Oxide Thin Films Prepared by DC Magnetron Sputtering
- Application of High-pressure Annealing Process to Dual Damascene Copper Interconnections
- Calculation of Ferrite Decarburizing Depth, Considering Chemical Composition of Steel and Heating Condition
- Direct Observations of Cracks and Voids in Structural Materials by X-ray Imaging Using Ultra-bright Synchrotron Radiation
- Roughness Estimation of Polycrystalline Iron Surface under High Temperature by Small Glancing Angle X-ray Scattering
- Numerical Modeling of Microsegregation for Fe-base Multicomponent Alloys with Peritectic Transformation Coupled with Thermodynamic Calculations
- Process Design of Extend Forging Process Using Numerical Simulation Development of Process Design Method for the Finish Forging Process
- Influence of Oxides on Microstructure and Notch Toughness of Weld Metal with Flux-cored Wires for High Strength Steel
- Effect of Hydrogen on Vacancy Formation in Sputtered Cu Films Studied by Positron Annihilation Spectroscopy
- Effect of Hydrogen on Vacancy Formation in Sputtered Cu Films Studied by Positron Annihilation Spectroscopy