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大阪大学接合科学研究所 | 論文
- Oxide nanosheets and their assemblies for new ceramic joining and smart processing
- Development of Cu-Sn or Cu-Zn Filler Metal for Joining Ceramics(Materials, Metallurgy & Weldability)
- Weld bead formation by 10 kW class high power fiber laser on 16 mm thickness carbon steel plate
- Creep Characteristics in Thick Welded Joints and Their Improvements (Report I) : Development of A Simple Model for Creep Analysis of A Thick Welded Joint(Mechanics, Strength & Structure Design)
- Control of Oxygen Concentration in Plasma Sprayed TiO_2 Coating by CO_2 Laser Irradiation(Materials, Metallurgy & Weldability)
- Numerical simulation and vision-based sensing of key-holing process in plasma arc welding
- The Numerical Simulation of Welding in Europe : Present Capabilities and Future Trends(Mechanics, Strength & Structure Design, INTERNATIONAL SYMPOSIUM OF JWRI 30TH ANNIVERSARY)
- Interfacial Structure and Bond Strength of Solid State Bonded SiC/Ni Joints(Materials, Metallurgy & Weldability)
- Phase transformation at interface using femtosecond laser irradiation
- Enhanced Method of Heat Sources in Welding and Plasma Spraying (1st Report) : Overview of Simple Thermal Plasma Models
- Mechanical Properties and Strengthening Mechanism of Pure Ti Powder Composite Material Reinforced with Carbon Nano Particles
- Wear Behavior of Sintered Magnesium Matrix Composites Reinforced with Mg2Si Particle under Wet Sliding Conditions
- Physical Phenomena and Porosity Prevention Mechanism in Laser-Arc Hybrid Welding
- Numerical visualization on melting and solidification of micron-sized metallic particles by laser irradiation
- Modelling of Viscosity and Fluid Dynamics in Similar Friction Joints
- Fundamental research on micro discharge process : Research on discharge of sub-millimeter size process
- Numerical analysis on heat source characteristics of two-electrodes TIG arc
- Micro Welding of Thin Cu Foils with a Direct Diode Laser
- Welding Mechanism of Laser-Arc Combination High Speed Welding
- Rewriting Process of Lower Electrical Resistance Lines on TiO2 Film using Methods of Whitening with CW Fiber Laser and Darkening with Femtosecond Laser