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Department of Mechanical Engineering and Systems, Graduate School of Engineering, Osaka University | 論文
- Influence of WC and Co Contents in Cutting of Wear and Impact Resistant Cemented Carbides(Advanced Manufacturing Technology [I])
- Influence of WC and Co Contents in Cutting of Wear and Impact Resistant Cemented Carbides(Advanced machining technology (continued))
- Fatigue Crack Growth Behavior in Silicon Nitride under Constant and Variable Amplitude Load Sequences
- Interfacial Microstructure of Silicon Carbide and Titanium Aluminide Joints Produced by Solid-State Diffusion Bonding
- C11 Effect of Fullerene Poly-hydroxide on Cu-CMP Process(Abrasive finishing technology)
- Analysis of CFRP Cutting by Finite Element Method II
- Near-Threshold Fatigue Crack Growth Behavior of SUS304 Steel at High Temperatures Using Interferometric Strain/Displacement Gage : 2nd Report, Fatigue Crack Growth Behavior
- Near-Threshold Fatigue Crack Growth Behavior of SUS304 Steel at High Temperatures Using Interferometric Strain/Displacement Gage : 1st Report, Crack Closure Behavior
- Quantitative Measurement of Two-Dimensional Inclined Cracks by the Electric-Potential CT Method with Multiple Current Applications
- Experimental Study on Applicability of Passive Electric Potential CT Method for Identification of Three-Dimensional Surface Crack
- An Experimental Study on Applicability of Passive Electric Potential CT Method to Crack Identification(Advanced Technology of Experimental Mechanics)
- SA-07-2(099) Loading Frequency Effect on Near-Threshold and Sub-Threshold Fatigue Crack Growth in SUS304 Steel at an Elevated Temperature(Flaw Assessment at Elevated Temperature 2)
- IDENTIFICATION OF AN INTERFACE CRACK IN BONDED DISSIMILAR MATERIALS FROM ELECTRIC POTENTIAL DISTRIBUTION
- Evaluation of the J-Integral Range of Fatigue Crack Emanating from Notches by Simple Estimation Formulae
- Investigation on Path-Integral Expression of the J-Integral Range Using Numerical Simulations of Fatigue Crack Growth
- INVERSE PROBLEMS IN SOLID MECHANICS AND RELEVANT FIELDS
- Experimental Stress Separation Technique Using Thermoelasticity and Photoelasticity and Its Application to Fracture Mechanics(Advanced Technology of Experimental Mechanics)
- Development of a New Crack Identification Technique Based on Near-Tip Singular Electrothermal Field Measured by Lock-in Infrared Thermography
- A Mechanism of Deformation of Metals at High Temperatures with Special Reference to the Creep after a Sudden Change in Stress
- A Mechanism of Deformation of Metals at High Temperatures with Special Reference to the Tension Test and the Creep Test