スポンサーリンク
Nissan Motor Co. LTD. | 論文
- Technical Development of Radiated Noise Reduction Using Sensitivity Analysis : Series C : Vibration, Control Engineering, Engineering for Industry
- Development of New Mode-Superposition Technique for Truncating Lower- and/or Higher-Frequency Modes : Application of Eigenmode Sensitivity Analysis for Systems with Repeated Eigenvalues
- A Substructure Method Incorporating Homogenization for Finding Optimum Vehicle Body Panel Topologies
- Gear Train Classification Method for Simplifying Automatic Transmission Calculations : Vibration, Control Engineering, and Engineering for Industry, New materials, new energy, biotechnology, electronics, etc.
- CFRP Impeller Turbocharger(New Models and Products)
- A Strength Analysis of Ceramic Radial Turbine Rotors : Series A : Solid-Mechanics, Strength of Materials
- Development of Centrifugal Compressor for 100kW Automotive Ceramic Gas Trubine
- Development of Eigenmode and Frequency Response Sensitivity Analysis Methods for Coupled Acoustic-Structural Systems
- Study of Structure Identification Method Using Sensitivity Analysis
- 216 Ultra High Speed and High Efficiency Grinding for Mirror-Like Surface Finish
- Optimum Analysis for Structural Vibration Character : First Report Proposition of a New Eigen Mode Sensitive Analysis and Comparison between Some Different Methods : Series C : Vibration, Control Engineering, Engineering for Industry
- Impact Wear Characteristics of Engine Valve and Valve Seat Insert Materials at High Temperature : Impact Wear Tests of Martensitic Heat-Resistant Steel SUH3 Against Fe-Base Sintered Alloy Using Plane Specimens
- IGTC-116 Recent Advancements and Problems in Turbochargers for Passenger Cars(Organized Session VI AUTOMOTIVE TURBOCHARGERS)
- TURBOCHARGERS(Technology Trend and Production Statistics of Gas Turbines and Superchargers in Japan in 1991)
- IGTC-62 Development of a Low-Emission Combustor for a 100-kW Automotive Ceramic Gas Turbine(Session C-3 AUTOMOTIVE CERAMIC GAS TURBINES)
- 片側ダンピング式集積形加速度センサ
- Environmentally Benign Manufacturing of Automotive Parts via Powder Metallurgy
- Production of automotive parts using an environmentally friendly P/M (powder metallurgy) process
- Characteristics of Mixture Fraction Burned with Autoignition and Knocking Intensity in a Spark Ignition Engine
- Development of New Mode-Superposition Technique for Truncating Lower- and/or Higher-Frequency Modes : Application to Eigenmode Sensitivity Analysis
スポンサーリンク