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Department Of Mechanical Engineering Nagaoka University Of Technology | 論文
- 128 Fretting Fatigue Behavior in the Ultra High Cycle Regime
- Mental Stress-induced Physiological Changes in the Human Masseter Muscle
- Changes in Masseteric Hemodynamics Time-related to Mental Stress
- Cerebral Oxygenation Monitoring for Detecting Critical Cerebral Hypoperfusion in Patients with Multiple System Atrophy during the Head-up Tilt Test
- Effect of Bond Coat Materials on Thermal Fatigue Failure of EB-PVD Thermal Barrier Coatings
- Transient Crossed Cerebellar Diaschisis Due to Cerebral Hyperperfusion Following Surgical Revascularization for Moyamoya Disease : Case Report
- Improved Density and Mechanical Properties of a Porous Metal-Free Phthalocyanine Thin Film Isotropically Pressed with Pressure Exceeding the Yield Strength
- Analytical Modeling of the Growth of Arrays of Needles during Unidirectional Solidification Process under High Temperature Gradient: Part II. Comparison with Experiments
- 234 Effect of Microstructure on Fatigue Crack Growth Behavior of Structural steel
- Special Issue on Thermoelectric Conversion Materials VII
- Effect of Underlay Stiffness on Cutting Profile of Polycarbonate Sheet during Wedge Indentation Process
- Spray Freeze-Dried Porous Microparticles of a Poorly Water-Soluble Drug for Respiratory Delivery
- Effect of Scoring Condition on Creasing Characteristics of Double-Wall Corrugated Board
- Dendritic Growth in Undercooled Melt with Forced Convection : Theory
- Recovery of Mechanical Property on Nano-Co Particles Dispersed Al_2O_3 via High-Temperature Oxidation
- Characteristics of Double-Pulse Discharge in Supersonic Flow for Excimer Laser Excitation
- Influences of Shock Waves on High-Pressure, Pulsed Glow Discharge due to Excimer Laser Excitation
- Effects of Supersonic Flow Channel Configuration on Pulse Discharge for Excimer Laser Excitation
- Influences of Floating Particles Produced by High-Pressure, Pulsed Glow Discharge on Excimer Laser Excitation
- Quantitative Evaluation of Stress-Strain Curves by Spherical-Tip Nanoindentation with Variable Radius Method