スポンサーリンク
Department Of Mechanical Engineering Science University Of Tokyo | 論文
- Characteristics of obstacle avoidance behavior in a linear cluster robotic system
- Positivity of extrapulmonary Ga-67 uptake in sarcoidosis : Thyroid uptake due to chronic thyroiditis and bone uptake due to fibrous dysplasia
- Vertical fissure : computed tomographic observation and correlation with chest radiography
- 217 Nonlinear stress-strain behavior in CFRP laminates
- Endoscopic submucosal dissection as a treatment for gastric noninvasive neoplasia : a multicenter study by Osaka University ESD Study Group
- Mechanical and Thermal Properties of Short Coir Fibre Reinforced Poly(Butylene Succinate) Biodegradable Composites
- (2-06) A New Concept on the Conflict of Combustion & Emission in the SI-Stratified-GDI and CI-Pre-Mixed-DI Engines : by REABP (Re-Entrainment of Active Burned Products) Phenomenon and Radical Formation((SI-2)S. I. Engine Combustion 2-Direct Injection Engi
- Mechanical Testing and Structural Characterization of Hydrostatically Extruded Polymers. I. Effects of Hydrostatic Extrusion on Subsequent Mechanical Behavior
- Dynamic control of the lip configuration of a mouth robot for Japanese vowels
- A Study on the Axially Curved Mixed-flow Vaneless Diffusers
- DNS of heat transfer in a neutrally stratified turbulent Ekman layer
- Metal–Insulator Transition for V2O3 Powder Observed Using a Soft X-ray Emission Spectrometer
- A Study of Conical Annular Mixed-Flow Diffusers with Guide Fences
- A Consideration on Relation between Oscillatory Marangoni Flow in a Liquid Bridge and the Hydrothermal Wave in a Thin Liquid Layer
- Strain Energy Release Rate at the Delamination Interface of IC Package(Electronic Devices)
- State-of-the art in component technology for an animated face robot-its component technology development for interactive communication with humans
- Mechanical Properties in a Bamboo Fiber/PBS Biodegradable Composite
- Evaluation of Interfacial Tensile Strength in Glass Fiber/Epoxy Resin Interface using the Cruciform Specimen Method