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Department of Mechanical Systems Engineering, Utsunomiya University | 論文
- Analysis of Hydrostatic Tube Bulging with Cylindrical Die Using Static Explicit FEM
- PREFACE
- A multi-robot teleoperation system utilizing the Internet
- Characterization of Wheel Surface Topography in cBN Grinding(Advanced Manufacturing Technology [I])
- Characterization of Wheel Surface Topography in CBN Grinding(CBN grinding technology)
- Communication system for cooperative mobile robots : implementation of communication among soccer robots
- OS5(P)-23(OS05W0268) Nanoscratching on Chromium Carbides in Cold Work Die Steel Using an Atomic Force Microscope
- A26 Mechanism of Material Removal in Nanomachining using AFM Diamond Tip(M4 processes and micro-manufacturing for science)
- Formation Mechanism of Finished Surface in Ultrahigh-Speed Grinding with cubic Boron Nitride (cBN) Wheels(Advanced Manufacturing Technology [I])
- Profile Grinding of Superalloys with Ultrafine-Crystalline cBN Wheels(Advanced Manufacturing Technology [I])
- Real-Time Synthesis and Control by Corrected Inverse Transfer Function of an NC Table(Precision positioning and control technology)
- Development of fine-coarse stage by coaxial arrangement of two stepping motors(Precision positioning and control technology)
- Profile Grinding of Superalloys with Ultrafine-Crystalline CBN Wheels(CBN grinding technology)
- Formation Mechanism of Finished Surface in Ultra-High Speed Grinding with CBN Wheels(CBN grinding technology)
- Effects of Uniformity in Wheel Structure on Grinding Characteristics of Vitrified CBN Wheels(CBN grinding technology)
- OS5(P)-22(OS05W0267) Evaluation of Local Work Affected Layer Based on Magnetic Domain Analysis Using Magnetic Force Microscopy
- 336 Study on accuracy compensation of a machining center based on measurement results of machined workpiece
- Microstructure Refinement and Texture Evolution of Titanium by Friction Roll Surface Processing
- Microstructural and Textural Evolution by Continuous Cyclic Bending and Annealing in a High Purity Titanium
- Improvement of Fatigue Properties by Means of Continuous Cyclic Bending and Annealing in an Al-Mg-Mn Alloy Sheet