スポンサーリンク
Faculty of Engineering, Ritsumeikan University | 論文
- Development of a Hydraulic Spring-Type, High-Speed Impact Fatigue Testing Machine and the Experimental Results
- Studies on Fatigue Damage Caused by Stresses below the E durance Limit : Probability Distributions of Crack Initiation Lives at Stresses near the Endurance Limit
- Effect of Loading Time on High-Cycle Range Impact Fatigue Strength and Impact Fatigue Crack Growth Rate
- The Propagation of the Fatigue Crack Crossing the Inrerrace of Metal Composites Under the Effect of Residual Thermal Stress
- On the Propagation Behavior of the Fatigue Crack along the Interface of Metal Composites
- Propagation of Fatigue Cracks in Parallel with the Interfaces of Metal Composites
- A Probabilistic Study on Fatigue Life Distribution of a Metallic Material with Surface Defects Considering the Number of Initiated Cracks
- A Statistical Study on Fatigue Life Distribution Based on the Coalescence of Cracks from Surface Defects
- Effect of Heating and Cooling Speed and Hold Time on Thermal Fatigue
- ESTIMATION OF TENSILE STRENGTH DISTRIBUTION FOR CARBON FIBER WITH DIAMETER VARIATION ALONG FIBER
- Study on Crack Growth Behavior in Impact Fatigue : Part III, Fatigue Crack Growth Behaviors of 2017-T3 Aluminum Alloy
- Study on Crack Growth Behaviors in Impact Fatigue : Part II, Crack Clusure Behavior under Simple Impact Load
- Fatigue Crack Propagation Behaviors of Multilayered Low Carbon Steel-stainless Steel Composite Plates
- Study on Crack Growth Behavior in Impact Fatigue : Part 1,Impact Fatigue Crack Growth Characteristics of 0.1%C Aluminum Killed Steel
- Effect of Specimen Thickness on Fatigue Crack Propagation in High Strength Steels
- Effect of Aging Treatment on the Fatigue Crack Propagation of 18% Ni Maraging Steel
- Plane Bending Plastic Fatigue of Ni-Cr-Mo Steel
- Study on Coalescence Probability of Cracks Originating from Randomly Spaced Surface Defects and Associated Fatigue Life Distribution
- Effect of Loading Frequency on the Fatigue Strength of Steels at Elevated Temperatures
- Studies on Impact Fatigue : Part IV, Impact Fatigue Tests of 0.22%C Carbon Steel under -50℃ Low Temperature Atmosphere