Research Activities
Many current students and graduates present their research results in academic conferences and academic papers
Conference presentation
| Title | Society name | Laboratory | Contents |
|---|---|---|---|
| Study of Actual Road Power Consumption Improvement Method for Electric Vehicle using Traffic Flow Simulation | Society of Automotive Engineers of Japan 2023 Spring Conference Academic Lecture | Akira Kato Laboratory | detail |
| Study of BEV ECO-Driving Methods using Mode and Real Driving Tests - Actual Road Power Consumption Assessment and Characteristics - | Society of Automotive Engineers of Japan 2023 Fall Conference Academic Lecture | Akira Kato Laboratory | detail |
| Research on the impact of BEV one-pedal driving on electricity consumption | Society of Automotive Engineers of Japan Kanto Branch 2023 Academic Research Lecture | Akira Kato Laboratory | detail |
| Research on improving the accuracy of electricity cost calculation models for electric vehicles | Society of Automotive Engineers of Japan Kanto Branch 2023 Academic Research Lecture | Akira Kato Laboratory | detail |
| Research on the influence of FAME on particle number (PN) using 3D CFD | Society of Automotive Engineers of Japan Kanto Branch 2023 Academic Research Lecture | Akira Kato Laboratory | detail |
| Research on fuel efficiency in actual road driving using hybrid vehicles Subtitle: Actual road fuel efficiency of series hybrid vehicles | Society of Automotive Engineers of Japan Kanto Branch 2023 Academic Research Lecture | Akira Kato Laboratory | detail |
| Acoustic analysis of automobile interior space (Comparison of finite element method and ray tracing method, sound absorption effect of walls and seats) | The 33rd General Symposium on Environmental Engineering 2023 | Yoshio Kurosawa Laboratory | detail |
| Vibro-acoustic analysis of sound absorbing duct using porous materials | Internoise2023 No1-2-8 | Yoshio Kurosawa Laboratory | detail |
| FE analysis of porous material covers for automotive parts materials | Internoise2023 No3-12-8 | Yoshio Kurosawa Laboratory | detail |
| Vibro-acoustic analysis of soundproof covers for automotive parts | Design and Dynamics Conference 2023 | Yoshio Kurosawa Laboratory | detail |
| Vibro-acoustic analysis of urethane foam using X-ray CT data | Design and Dynamics Conference 2023 | Yoshio Kurosawa Laboratory | detail |
| Comparative study of finite element modeling of a violin and a 3D printed violin | Acoustical Society of Japan 2023 Fall Research Presentation | Yoshio Kurosawa Laboratory | detail |
| Research on the sound absorption properties of CNF (cellulose nanofiber) laminated felt | Acoustical Society of Japan October Architectural Acoustics Study Group | Yoshio Kurosawa Laboratory | detail |
| Acoustic analysis of automobile cabin space assuming in-vehicle speakers | International Conference on Technology and Social Science 2023 (ICTSS 2023) | Yoshio Kurosawa Laboratory | detail |
| Finite element modeling of a violin and particle velocity measurements | Vibration Control Engineering Study Group 2023 Technical Exchange Meeting | Yoshio Kurosawa Laboratory | detail |
| Sound insulation analysis of soundproofing material made of acoustic metamaterial laminated with felt and rubber layers | Vibration Control Engineering Study Group 2023 Technical Exchange Meeting | Yoshio Kurosawa Laboratory | detail |
| Vibro-acoustic analysis of a violin using a finite element model | Acoustical Society of Japan 2024 Spring Meeting | Yoshio Kurosawa Laboratory | detail |
| Title | Society name | Laboratory | Contents |
|---|---|---|---|
| Vibration Acoustic Analysis of Sound Absorbing Duct for Automobile Battery | The 32nd Environmental Engineering General Symposium 2022 | Yoshio Kurosawa Laboratory | detail |
| Consideration of soundproofing for automobile transmission covers | Design and Dynamics Conference 2022 No.308 | Yoshio Kurosawa Laboratory | detail |
| FE analysis of urethane foam using X-ray CT data | Design and Dynamics Conference 2022 No.311 | Yoshio Kurosawa Laboratory | detail |
| Sound insulation analysis of acoustic metamaterial laminated with felt | Design and Dynamics Conference 2022 No.314 | Yoshio Kurosawa Laboratory | detail |
| Sound Absorption Phenomenon of Acoustic Metamaterials Using Membrane Vibration and Helmholtz Resonance | Design and Dynamics Conference 2022 v_Base_forum No.25 | Yoshio Kurosawa Laboratory | detail |
| Creation of Vibroacoustic Analysis Model of Violin (The 3rd report : Modeling and vibration analysis of neck with backboard and fingerboard) | Acoustical Society of Japan 2022 Fall Conference 1-1-7 | Yoshio Kurosawa Laboratory | detail |
| Behavior of liquid resin due to model melting in molten metal flow in disappearing model casting method for aluminum alloys | Japan Foundry Engineering Society 179th National Conference | Koroyasu Laboratory | detail |
| Influence of Vibration Method on Appearance of Aluminum Alloy Castings in Lost Pattern Casting | Japan Foundry Engineering Society 179th National Conference | Koroyasu Laboratory | detail |
| Melt flow in vanishing pattern casting method with branched channels | The Japan Society of Mechanical Engineers Kanto Branch 2022 Ibaraki Lecture | Koroyasu Laboratory | detail |
| Heat Absorption of Various Filling Sand Molds in Lost Pattern Casting of Aluminum Alloy Castings | Japan Foundry Engineering Society 180th National Conference | Koroyasu Laboratory | detail |
| Calculation Method of Heat Transfer Coefficient Between Laminate Mold and Molten Aluminum Alloy and Its Issues | Japan Foundry Engineering Society 180th National Conference | Koroyasu Laboratory | detail |
| Investigation of Energy Consumption Measurement Method for Electric Vehicles Using External Diagnosis Tool | Japan Society of Mechanical Engineers, Kanto Branch Tochigi Block Research Exchange Meeting | Akira Kato Laboratory | detail |
| Effects of biofuels on emissions in PCCI combustion using 3D CFD | Society of Automotive Engineers of Japan Kanto Branch 2022 Academic Research Lecture Meeting (ICATYE) | Akira Kato Laboratory | detail |
| Study on PN reduction method of biofuel in diesel engine using 3D CFD | Society of Automotive Engineers of Japan Kanto Branch 2022 Academic Research Lecture Meeting (ICATYE) | Akira Kato Laboratory | detail |
| Research on improvement of electricity consumption of electric vehicles by mode test and road test | Society of Automotive Engineers of Japan Kanto Branch 2022 Academic Research Lecture Meeting (ICATYE) | Akira Kato Laboratory | detail |
| Study of Numerical Modeling of Electric Vehicle for Improvement Method of Energy Efficiency | 2022-2023 JSAE KANTO International Conference of Automotive Technology for Young Engineers (ICATYE) | Akira Kato Laboratory | detail |
| Vibro-acoustic analysis of an automotive transmission cover | 2022 Technical Exchange Meeting Document Collection SDT22004 (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Transmission loss of soundproofing material made of acoustic metamaterial and felt laminated | 2022 Technical Exchange Meeting Document Collection SDT22005 (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Creating a violin top using a 3D printer and finite element analysis of the violin | 2022 Technical Exchange Meeting Materials Collection SDT22007 (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Acoustic analysis of automobile interior space assuming in-car speakers | 2022 Technical Exchange Meeting Materials Collection SDT22008 (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Vibroacoustic analysis of singing rings Part 6 - Effect of bottom support conditions on the vibration and radiated sound of singing rings | 2022 Technical Exchange Meeting Materials Collection SDT22009 (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Vibroacoustic analysis of the singing ring: Part 7 - Construction of an axisymmetric model of the singing ring | 2022 Technical Exchange Meeting Materials Collection SDT22010 (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Transmission loss and radiation sound analysis for automotive floor mat | International Conference on Technology and Social Science 2022 (ICTSS 2022) | Yoshio Kurosawa Laboratory | detail |
| Sound insulation analysis of acoustic metamaterials using FE method | International Conference on Technology and Social Science 2022 (ICTSS 2022) | Yoshio Kurosawa Laboratory | detail |
| Finite element analysis of acoustic metamaterials using membrane vibration and Helmholtz resonance | Acoustical Society of Japan 2023 Spring Research Presentation 2-5-6 | Yoshio Kurosawa Laboratory | detail |
| Public Symposium of the Science Council of Japan "The Aims of Computational Acoustics" | Vibroacoustic analysis of the acoustic musical instrument Singing Ring | Yoshio Kurosawa Laboratory | detail |
| Title | Society name | Laboratory | Contents |
|---|---|---|---|
| Sound absorption analysis of acoustic metamaterials using Helmholtz resonance | Society of Automotive Engineers of Japan 2021 Spring Meeting Academic Lecture | Yoshio Kurosawa Laboratory | detail |
| Creation of violin vibration acoustic analysis model (1st report: Neck modeling and vibration analysis) | Acoustical Society of Japan 2021 Fall Research Presentation | Yoshio Kurosawa Laboratory | detail |
| Sound insulation analysis of acoustic metamaterials | Design and Dynamics Conference 2021 | Yoshio Kurosawa Laboratory | detail |
| Acoustic analysis of sound absorbing ducts for automobiles | Design and Dynamics Conference 2021 | Yoshio Kurosawa Laboratory | detail |
| FE analysis of microstructure imitating urethane foam | Design and Dynamics Conference 2021 | Yoshio Kurosawa Laboratory | detail |
| Effect of idle time after starting the engine of gasoline-powered vehicle on the temperature rise of the exhaust catalyst and exhaust gas | Japan Society of Mechanical Engineers 2021 Annual Meeting | Akira Kato Laboratory | detail |
| Study of Actual Road Fuel Efficiency Improvement Method for Small Passenger Cars using Traffic Flow Simulation | Public Interest Incorporated Association Automobile Technology Association, 2021 Autumn Meeting Academic Lecture | Akira Kato Laboratory | detail |
| 2 Examination of methods for improving actual road fuel efficiency of motor hybrid passengers | Public Interest Incorporated Association Automobile Technology Association Autumn Academic Lecture | Akira Kato Laboratory | detail |
| Study of Hybrid Electric Vehicle Modeling using MATLAB / Simulink Simulation | Japan Society of Mechanical Engineers Kanto Department, Tochidai Block Research Exchange Meeting | Akira Kato Laboratory | detail |
| Research on driver discrimination technology using automatic throttle opening | Japan Society of Mechanical Engineers Kanto Department, Tochidai Block Research Exchange Meeting | Akira Kato Laboratory | detail |
| Research on predicting the number of soot grains emitted from diesel engines | Japan Society of Mechanical Engineers Kanto Department, Tochidai Block Research Exchange Meeting | Akira Kato Laboratory | detail |
| Study on predicting the number of soot grains emitted from diesel engines -Comparison between experiments and calculations of PN emissions | The 32nd Internal Combustion Engine Symposium sponsored by the Public Interest Incorporated Association Vehicle Technology Association | Akira Kato Laboratory | detail |
| Study of Diesel Combustion Simulation by Evaporative Spray Measurement in High Temperature and High-Pressure Vessel | JSAE 32nd Internal Combustion symposium | Akira Kato Laboratory | detail |
| Research on predicting the number of soot grains emitted from diesel engines -Effect of the number of injections on soot emissions | Public Interest Incorporated Association Technology Association, Kanto Department 2021 Academic Research Lecture | Akira Kato Laboratory | detail |
| Study on the effect of the latest automobile exhaust gas on the air by the actual road test | Public Interest Incorporated Association Technology Association, Kanto Department 2021 Academic Research Lecture | Akira Kato Laboratory | detail |
| Study of Fuel Efficiency Improvement Method for Small Passenger Vehicle Using Traffic Flow Simulation, Second Report: Hybrid Electric Vehicle | 2021-2022 JSAE Kanto International Conference of Automotive Technology for Young Engineers | Akira Kato Laboratory | detail |
| Examination of CO2 emission reduction methods for actual road driving of light vehicles | Japan Society of Mechanical Engineers, Kanto Department 61st Student Graduation Research Presentation Lecture | Akira Kato Laboratory | detail |
| Research on generalization confirmation and high accuracy of traffic flow simulation | Japan Society of Mechanical Engineers, Kanto Department 61st Student Graduation Research Presentation Lecture | Akira Kato Laboratory | detail |
| Impact of PCCI combustion on emissions in diesel engines with 3D CFD | Japan Society of Mechanical Engineers, Kanto Department 61st Student Graduation Research Presentation Lecture | Akira Kato Laboratory | detail |
| Effect of various parameters on diesel engine using 3D CFD on exhaust gas | Japan Society of Mechanical Engineers, Kanto Department 61st Student Graduation Research Presentation Lecture | Akira Kato Laboratory | detail |
| Research on the impact of exhaust gas from the latest gasoline-powered vehicles | Japan Society of Mechanical Engineers, Kanto Department 61st Student Graduation Research Presentation Lecture | Akira Kato Laboratory | detail |
| Study for Improving Volume of the Assembled Whistle | International Conference on Technology and Social Science 2021 (ICTSS 2021) | Kurosawa Lab | detail |
| Sound Pressure Distribution of Car Interior and Influence of Wall by Car Door Speaker | International Conference on Technology and Social Science 2021 (ICTSS 2021) | Kurosawa Lab | detail |
| Vibrational Acoustic Analysis of Singing Lin No5 | Technical exchange meeting materials 2021 SDT21002(Vibration Control Engineering Research Group) | Kurosawa Lab | detail |
| Violin neck vibration analysis | Technical exchange meeting materials 2021 SDT21002(Vibration Control Engineering Research Group) | Kurosawa Lab | detail |
| Vibration-acoustic analysis of sound absorbing ducts for automobiles | Technical exchange meeting materials 2021 SDT21014(Vibration Control Engineering Research Group) | Kurosawa Lab | detail |
| Sound insulation analysis of acoustic metamaterials using Helmholtz resonance and membrane vibration | Technical exchange meeting materials 2021 SDT21022(Vibration Control Engineering Research Group) | Kurosawa Lab | detail |
| Vibration analysis of a violin top | Acoustical Society of Japan 2022 Spring Research Presentation 2-9-2 | Kurosawa Lab | detail |
| Title | Society name | Laboratory | Contents |
|---|---|---|---|
| Sound and Vibration Analysis of the Acoustic Fields Involving Absorption Materials when Excited Panel | International Conference on Technology and Social Science 2020 | Yoshio Kurosawa Laboratory | detail |
| FE model for the loosely-support method in impedance tube measurement | International Conference on Technology and Social Science 2020 | Yoshio Kurosawa Laboratory | detail |
| Finite element analysis of porous speaker cover | Acoustical Society of Japan 2020 Spring Research Presentation 1-10-10 | Yoshio Kurosawa Laboratory | detail |
| Sound insulation analysis of acoustic metamaterials | Design and Dynamics Conference 2020 | Yoshio Kurosawa Laboratory | detail |
| Sound insulation and radiation analysis of floor carpets for automobiles | Design and Dynamics Conference 2020 | Yoshio Kurosawa Laboratory | detail |
| Sound pressure distribution and wall effects in the interior space of a car | Design and Dynamics Conference 2020 | Yoshio Kurosawa Laboratory | detail |
| Examination of improving volume with the practical application of prefabricated whistle | Acoustical Society of Japan 2020 Fall Research Presentation | Yoshio Kurosawa Laboratory | detail |
| [Example of using Altair classroom] Vibration analysis model creation in mechanical engineering experiments | Altair University Japan 2020 | Yoshio Kurosawa Laboratory | detail |
| Examination of volume improvement of prefabricated whistle for disaster relief | 2020 Vibration Control Engineering Study Group Technology Exchange Meeting | Yoshio Kurosawa Laboratory | detail |
| The effect of the wall of the car interior space on the in-vehicle speaker | 2020 Vibration Control Engineering Study Group Technology Exchange Meeting | Yoshio Kurosawa Laboratory | detail |
| Sound insulation analysis of honeycomb-structured acoustic metamaterials | 2020 Vibration Control Engineering Study Group Technology Exchange Meeting | Yoshio Kurosawa Laboratory | detail |
| Effect of vibrational fluidity of filled sand on the appearance of cast products in Lost-foam casting method | Japan Society of Mechanical Engineers Kanto Branch 2020 Ibaraki Lecture | Koroyasu Laboratory | detail |
| Influence of Fuel Injection Position on Diesel Engine Combustion Chamber | Society of Automotive Engineers of Japan 2020 Autumn Meeting Academic Lecture | Akira Kato Laboratory | detail |
| Effect of soak temperature and first idle time of small passenger cars on exhaust gas in actual road test | Society of Automotive Engineers of Japan 2020 Autumn Meeting Academic Lecture | Akira Kato Laboratory | detail |
| Effect of idle time after start by measuring the temperature rise of the exhaust catalyst of automobiles on exhaust gas | Japan Society of Mechanical Engineers, Kanto Branch Tochigi Block Research Exchange Meeting | Akira Kato Laboratory | detail |
| Research on diesel engine combustion simulation using biofuel by free spray measurement (2nd report: Evaporation spray measurement in high temperature and high pressure field) | Japan Society of Mechanical Engineers, Kanto Branch Tochigi Block Research Exchange Meeting | Akira Kato Laboratory | detail |
| Research on predicting the number of soot particles emitted from a diesel engine using CFD simulation | Japan Society of Mechanical Engineers, Kanto Branch Tochigi Block Research Exchange Meeting | Akira Kato Laboratory | detail |
| Effect of soak temperature and idle time of small passenger cars on exhaust gas in actual road test | Society of Automotive Engineers of Japan Gasoline Engine Division Committee Diesel Engine Division Committee Joint Committee | Akira Kato Laboratory | detail |
| STUDY ON FUEL CONSUMPTION ON ACTUAL ROAD BY USING TRAFFIC FLOW SIMULATION FIRST REPORT: MODELING OF VEHICLE AND ENGINE BY USING MATLAB | 2020-2021 JSAE KANTO International Conference of Automotive Technology for Young Engineers (ICATYE) | Akira Kato Laboratory | detail |
| Research on actual road fuel consumption using traffic flow simulation Second report: Combination of traffic flow simulation and vehicle model | Society of Automotive Engineers of Japan Kanto Branch 2020 Academic Research Lecture | Akira Kato Laboratory | detail |
| Research on fuel efficiency in actual road driving using hybrid vehicles (actual road fuel efficiency of 2-motor hybrid vehicles) | Society of Automotive Engineers of Japan Kanto Branch 2020 Academic Research Lecture | Akira Kato Laboratory | detail |
| Research on actual road exhaust gas test using gasoline passenger car | Society of Automotive Engineers of Japan Kanto Branch 2020 Academic Research Lecture | Akira Kato Laboratory | detail |
| Effect of idle time after start by measuring the temperature rise of the exhaust catalyst on exhaust gas | Society of Automotive Engineers of Japan Kanto Branch 2020 Academic Research Lecture | Akira Kato Laboratory | detail |
| FE analysis on the sound absorption coefficient of a modeled object using a 3D printer | Acoustical Society of Japan 2021 Spring Research Presentation | Kurosawa Lab | detail |
| Title | Society name | Laboratory | Contents |
|---|---|---|---|
| Calculation for normal sound absorption coefficient of automotive absorption materials using FE model for impedance tube | International Conference on Technology and Social Science 2019 (ICTSS 2019) | Yoshio Kurosawa Laboratory | detail |
| Development of Vibration Isolation Gloves for High Workability (Second Report) | International Conference on Technology and Social Science 2019 (ICTSS 2019) | Yoshio Kurosawa Laboratory | detail |
| Vibration acoustic analysis of panels laminated with urethane and rubber sheets | 29th Environmental Engineering Comprehensive Symposium 2019 | Yoshio Kurosawa Laboratory | detail |
| Acoustic FE analysis of in-vehicle speaker cover | Design and Dynamics Conference 2019 | Yoshio Kurosawa Laboratory | detail |
| Sound absorption analysis of metamaterials | Design and Dynamics Conference 2019 | Yoshio Kurosawa Laboratory | detail |
| Radiation sound and sound insulation analysis of automobile panels laminated with urethane rubber sheets | Acoustical Society of Japan 2019 Fall Research Presentation | Yoshio Kurosawa Laboratory | detail |
| Acoustic Analysis for the Speaker Cover of Automobile | International Conference on Mechanical, Electrical and Medical Intelligent System 2019 | Yoshio Kurosawa Laboratory | detail |
| Sound Absorption Analysis of Meta-Material | International Conference on Mechanical, Electrical and Medical Intelligent System 2019 | Yoshio Kurosawa Laboratory | detail |
| Vibration and sound insulation analysis of automobile carpet | 2019 Technology Exchange Meeting Material Collection SDT19003 (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Vibration Acoustic Analysis of Singing Lin Part 4 | 2019 Technology Exchange Meeting Material Collection SDT19003 (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Acoustic FE analysis of automotive speaker covers | 2019 Technology Exchange Meeting Material Collection SDT19003 (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Sound absorption analysis of honeycomb structure metamaterial | 2019 Technology Exchange Meeting Material Collection SDT19003 (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Effect of vibration conditions of the casting frame on the dimensional accuracy of the cast in the lost model casting method | Japan Society of Mechanical Engineers, Kanto Branch 2019 Ibaraki Lecture | Sadatoshi Koroyasu Lab | detail |
| Effect of vibration conditions on the appearance of cast products in the lost-foam casting method using artificial sand | Japan Foundry Engineering Society 174th National Lecture Meeting (in Fukuoka) | Sadatoshi Koroyasu Lab | detail |
| Effect of biofuel on diesel engine exhaust gas performance by actual machine test and numerical analysis | Society of Automotive Engineers of Japan 2019 Autumn Meeting Academic Lecture | Akira Kato Laboratory | detail |
| Diesel combustion simulation of biofuel by spray calculation | Japan Society of Mechanical Engineers, Kanto Branch Tochigi Block Research Exchange Meeting | Akira Kato Laboratory | detail |
| Effects of Injector Height Position in Diesel Engine Performance and Exhaust Gas Emissions | 2019-2020 JSAE KANTO International Conference of Automotive Technology for Young Engineers (ICATYE) | Akira Kato Laboratory | detail |
| Research on diesel engine combustion simulation using biofuel by free spray measurement | Society of Automotive Engineers of Japan, Kanto Branch 2019 Academic Research Lecture | Akira Kato Laboratory | detail |
| Research on exhaust gas performance of diesel engine using 3D CFD 2nd report: High accuracy using in-cylinder pressure measurement | Society of Automotive Engineers of Japan, Kanto Branch 2019 Academic Research Lecture | Akira Kato Laboratory | detail |
| Research on fuel efficiency of passenger cars by mode test and actual road test (2nd report) Actual road fuel efficiency of hybrid vehicles | Society of Automotive Engineers of Japan, Kanto Branch 2019 Academic Research Lecture | Akira Kato Laboratory | detail |
| Research on RDE test using small passenger car (1st report) Effect of soak temperature on exhaust gas | Society of Automotive Engineers of Japan, Kanto Branch 2019 Academic Research Lecture | Akira Kato Laboratory | detail |
| Study on RDE test using small passenger car 2nd Report: Effect of the time between engine start and running on the exhaust emissions | 2019-2020 JSAE KANTO International Conference of Automotive Technology for Young Engineers (ICATYE) | Akira Kato Laboratory | detail |
| Title | Society name | Laboratory | Contents |
|---|---|---|---|
| Development of Vibration Isolation Gloves for High Workability | International Conference on Technology and Social Science 2018 (ICTSS 2018) | Yoshio Kurosawa Laboratory | detail |
| Vibration Analysis for the Violin with or without Bass-bar | International Conference on Technology and Social Science 2018 (ICTSS 2018) | Yoshio Kurosawa Laboratory | detail |
| Exploring its usefulness through acoustic analysis of the acoustic instrument Singing Lin | MSC Software 2018 Users Conference | Yoshio Kurosawa Laboratory | detail |
| Calculation of vertical incident sound absorption coefficient of sound absorbing material for automobiles by acoustic tube FE model | Design and Dynamics Conference 2018 (The Japan Society of Mechanical Engineers) | Yoshio Kurosawa Laboratory | detail |
| Effect of loose support method gap on acoustic tube measurement | Acoustical Society of Japan 2018 Autumn Meeting | Yoshio Kurosawa Laboratory | detail |
| Research on fuel efficiency of passenger cars by actual road test and mode test | Automotive Technology Association, Kanto Branch 2018 Academic Research Lecture | Akira Kato Laboratory | detail |
| Research on exhaust gas performance of diesel engine using 3D CFD | Automotive Technology Association, Kanto Branch 2018 Academic Research Lecture | Akira Kato Laboratory | detail |
| Impact of biofuels using 3D CFD on diesel engine emissions | Automotive Technology Association, Kanto Branch 2018 Academic Research Lecture | Akira Kato Laboratory | detail |
| Effect of filled sand on the appearance and dimensional accuracy of cast products in Lost-foam casting method | Japan Society of Mechanical Engineers Kanto Branch 2018 Ibaraki Lecture | Sadatoshi Koroyasu Lab | detail |
| Appearance and dimensional accuracy of aluminum alloy castings in Lost-foam casting method using artificial sand | Japan Foundry Engineering Society 172nd National Lecture Meeting | Sadatoshi Koroyasu Lab | detail |
| Development of sound absorption coefficient prediction technique of laminated ultrafine fiber | International Conference on Mechanical, Electrical and Medical Intelligent System 2018 | Yoshio Kurosawa Laboratory | detail |
| FE modeling of acoustic tube measurement by loose support method | Anti-vibration engineering study group 2018 technology exchange meeting | Yoshio Kurosawa Laboratory | detail |
| Panel vibration analysis when felt and rubber skins are laminated | Anti-vibration engineering study group 2018 technology exchange meeting | Yoshio Kurosawa Laboratory | detail |
| Development of anti-vibration equipment for the purpose of improving workability (2nd report) | Anti-vibration engineering study group 2018 technology exchange meeting | Yoshio Kurosawa Laboratory | detail |
| Acoustic analysis of speaker cover | Acoustical Society of Japan 2019 Fall / Spring Research Presentation | Yoshio Kurosawa Laboratory | detail |
| Research on fuel efficiency of passenger cars by actual road test and mode test | Automotive Technology Association Kanto Branch, 2018 Academic Research Lecture | Akira Kato Laboratory | detail |
| Research on exhaust gas performance of diesel engine using 3D CFD | Automotive Technology Association Kanto Branch, 2018 Academic Research Lecture | Akira Kato Laboratory | detail |
| Impact of biofuels using 3D CFD on diesel engine emissions | Automotive Technology Association Kanto Branch, 2018 Academic Research Lecture | Akira Kato Laboratory | detail |
| Title | Society name | Laboratory | Contents |
|---|---|---|---|
| Effect of coating mold insulation on molten metal flow length in lost-foam casting of thin-walled aluminum alloy | Japan Society of Mechanical Engineers, Kanto Branch | Sadatoshi Koroyasu Lab | detail |
| Effect of decompression on hot water flow of thin-walled aluminum alloy castings by Lost-foam casting method | Japan Foundry Engineering Society | Sadatoshi Koroyasu Lab | detail |
| Effect of filled particles and blast on blast furnace raceway formation | The Iron and Steel Institute of Japan | Akihiko Shinotake Laboratory | detail |
| Realization of ultra-high efficiency horizontal walking by passive walking machine | Robotics and Mechatronics Lecture | Yoshito Ikemata Laboratory | detail |
| Evaluation and analysis of the simplest walking support machine | Robotics and Mechatronics Lecture | Yoshito Ikemata Laboratory | detail |
| Front turning of soda lime glass with a diamond tool that has a fine structure on the cutting edge ridge | ABTEC2017 (Abrasion Processing Society) | Takenori Ohno Laboratory | detail |
| Acquisition of mechanical properties over time and examination of evaluation methods for the purpose of developing techniques for predicting changes in performance over time in automobile seat urethane | Society of Automotive Engineers of Japan | Masashi Makita Laboratory | detail |
| Transmission Loss Analysis for Automotive Panel Laminated with Felt and Olefin Sheet | International Conference on Technology and Social Science 2017 | Yoshio Kurosawa Laboratory | detail |
| Damped Acoustic Analysis of a Car Cabin with Several Porous Materials | International Conference on Technology and Social Science 2017 | Yoshio Kurosawa Laboratory | detail |
| Sound insulation performance analysis of soundproofing materials for automobiles made of rubber and urethane | Design and Dynamics Conference 2017 (The Japan Society of Mechanical Engineers) | Yoshio Kurosawa Laboratory | detail |
| Vibration acoustic analysis of a closed space where a sound absorbing material is placed by panel vibration | Design and Dynamics Conference 2017 (The Japan Society of Mechanical Engineers) | Yoshio Kurosawa Laboratory | detail |
| Effect of viscoelastic damping device with high-rigidity restraint layer on the resonant response of the frame structure | Design and Dynamics Conference 2017 (The Japan Society of Mechanical Engineers) | Yoshio Kurosawa Laboratory | detail |
| Effect of violin bus bar (power tree) on vibration | Acoustical Society of Japan 2017 Fall Research Presentation | Yoshio Kurosawa Laboratory | detail |
| Sound Insulation Analysis of Porous Media using Urethane and Rubber | International Conference on Mechanical, Electrical and Medical Intelligent System 2017 | Yoshio Kurosawa Laboratory | detail |
| Development of anti-vibration equipment for the purpose of improving workability | 2017 Technology Exchange Meeting (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Vibration Acoustic Analysis of Singing Lin Part 2 | 2017 Technology Exchange Meeting (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Effect of violin on vibration and sound due to the presence or absence of a bus bar | 2017 Technology Exchange Meeting (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| About the influence of sample boundary conditions on acoustic tube measurement | 2017 Technology Exchange Meeting (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Vibration acoustic analysis of two closed spaces separated by a sound absorbing material for automobiles | 2017 Technology Exchange Meeting (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Title | Society name | Laboratory | Contents |
|---|---|---|---|
| Sound insulation performance analysis by changing the shape of laminated soundproof material | Anti-vibration engineering study group 2016 technology exchange meeting | Yoshio Kurosawa Laboratory | detail |
| Effect of load stress level on high temperature multiaxial fatigue crack growth of SUS304 steel | Japan Society of Material Strength | Isogai Takeshi Laboratory | detail |
| Effect of stress component on high temperature multi-axis fatigue crack growth and fatigue life of SUS304 steel | Japan Society of Mechanical Engineers | Isogai Takeshi Laboratory | detail |
| Effect of load-equivalent stress amplitude on high-temperature fatigue crack growth under combined stress conditions in SUS304 steel | Japan Society of Mechanical Engineers, Kanto Branch Yamanashi Lecture | Isogai Takeshi Laboratory | detail |
| Lost-foam casting of thin-walled aluminum alloy Flow length of molten metal | Japan Society of Mechanical Engineers, Kanto Branch | Sadatoshi Koroyasu Lab | detail |
| Effect of heat insulation of coating mold on hot water flow of thin-walled aluminum alloy casting by lost-foam casting method | Japan Foundry Engineering Society | Sadatoshi Koroyasu Lab | detail |
| About the sound absorption coefficient prediction method for ultrafine fiber materials | Acoustical Society of Japan Architectural Acoustics Study Group | Yoshio Kurosawa Laboratory | detail |
| FEM-assisted SEA response analysis considering the coupling of damping in a structure with L-coupled damping curved panels | Design and Dynamics Conference 2016 | Yoshio Kurosawa Laboratory | detail |
| Impact response analysis of curved panels for automobiles with non-linear elastically supported frames | Design and Dynamics Conference 2016 | Yoshio Kurosawa Laboratory | detail |
| Development of sound absorption coefficient prediction method for laminated type ultrafine fiber material | Design and Dynamics Conference 2016 | Yoshio Kurosawa Laboratory | detail |
| Sound insulation performance analysis of laminated sound absorbing and insulating materials for automobiles | Design and Dynamics Conference 2016 | Yoshio Kurosawa Laboratory | detail |
| FEM-assisted SEA response analysis considering the coupling of damping in a cross-coupled structure of damping bead panels | Annual Meeting of the Japan Society of Mechanical Engineers | Yoshio Kurosawa Laboratory | detail |
| Impact response analysis when connecting a non-linear concentrated spring of a sound-absorbing double-wall structure composed of curved surfaces | Annual Meeting of the Japan Society of Mechanical Engineers | Yoshio Kurosawa Laboratory | detail |
| Sound insulation performance analysis of three-layer structure soundproofing material of felt, olefin sheet, and felt | 2016 Technology Exchange Meeting (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Vibration Acoustic Analysis of Singing Lin Part 1 | 2016 Technology Exchange Meeting (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Impact response analysis of curved panels for automobiles with non-linear elastically supported frames | 2016 Technology Exchange Meeting (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| FEM-assisted SEA response analysis considering the coupling of damping in a structure with L-coupled damping curved panels | 2016 Technology Exchange Meeting (Vibration Control Engineering Study Group) | Yoshio Kurosawa Laboratory | detail |
| Development of the simplest walking support machine | Robotics and Mechatronics Lecture | Yoshito Ikemata Laboratory | detail |
| Mathematical model of human running | Robotics and Mechatronics Lecture | Yoshito Ikemata Laboratory | detail |
| Extreme speed running derived from a simple model of human running and its feasibility | Lecture by System Integration Division, Society of Instrument and Control Engineers | Yoshito Ikemata Laboratory | detail |
| Title | Society name | Laboratory | Contents |
|---|---|---|---|
| An Experimental Study for 3D Rimless Wheel | Robotics and Mechatronics Lecture | Yoshito Ikemata Laboratory | detail |
| Attenuation acoustic analysis of the interior of an automobile when various porous bodies are arranged | Dynamics and Design Conference 2015 | Yoshio Kurosawa Laboratory | detail |
| Optimal placement of sound absorbing material in a simple model that imitates the interior of cars | Anti-vibration engineering study group 2015 technology exchange meeting | Yoshio Kurosawa Laboratory | detail |
| Examination of crack length measurement method for high temperature multi-axis fatigue | Japan Society of Material Strength | Isogai Takeshi Laboratory | detail |
| Effect of load phase difference and slit shape on high temperature multi-axis fatigue crack growth of SUS304 steel (2nd report) | Japan Society of Mechanical Engineers | Isogai Takeshi Laboratory | detail |
| Development of performance prediction technology for ultra-fine sound absorbing materials | Acoustical Society of Japan 2016 Spring Research Presentation | Yoshio Kurosawa Laboratory | detail |
| Predicting Automotive Interior Noise Including Wind Noise by Statistical Energy Analysis | International Conference on Mechanical Engineering and Applied Mechanics | Yoshio Kurosawa Laboratory | detail |
| Theoretical limit of movement efficiency in walking on the flat | Lecture by System Integration Division, Society of Instrument and Control Engineers | Yoshito Ikemata Laboratory | detail |
| Development of High Efficiency Load Path Structure to Enhance Side Impact Safety Performance | ESV (Enhanced Safety of Vehicles) | Masashi Makita Laboratory | detail |
| year | Title | Society name | Laboratory | Contents |
|---|---|---|---|---|
| 2011 | Proposal of 3S * Life for Low Carbon Society * Slow, Smart & Smile | Japan Society of Mechanical Engineers, Tochigi Gunma Block Joint Lecture | Mori Lab | detail |
| Study for Fuel Consumption Improvement of Diesel Engine | Japan Society of Mechanical Engineers, Tochigi Gunma Block Joint Lecture | Mori Lab | detail | |
| Proposal of 3S (Slow, Smart, Smile) life for CO2 reduction-Proposal of means of transportation- | University Consortium Tochigi 8th "Student & Company Research Presentation" | Mori Lab | detail | |
| 2012 | Proposal of 3S (slow, smart, smile) life for CO2 reduction-Investigation and proposal of lifeline and transportation- | University Consortium Tochigi 9th "Student & Company Research Presentation" | Mori Lab | detail |
| Research on fuel diversity of diesel Engines -Effects of mixing ratio of Bio-diesel fuels and light oil based on waste cooking oil and palm oil on output and emissions- | University Consortium Tochigi 9th "Student & Company Research Presentation" | Mori Lab | detail | |
| 2013 | Research on fuel diversity of diesel engines and low fuel consumption and low CO2 -Effects of biodiesel fuel and lubricating oil- | University Consortium Tochigi 10th "Student & Company Research Presentation" | Mori Lab | detail |
| Bending characteristics of aluminum alloy honeycomb structure | University Consortium Tochigi 10th "Student & Company Research Presentation" | Hiroshi Hino Laboratory | detail | |
| 2014 | Deformation behavior of honeycomb structure | Japan Society of Mechanical Engineers Tochigi Block Research Exchange Meeting | Hiroshi Hino Laboratory | detail |
| Bending characteristics of aluminum alloy honeycomb structure | University Consortium Tochigi 11th "Student & Company Research Presentation" | Hiroshi Hino Laboratory | detail | |
| Bending characteristics of aluminum alloy honeycomb structure | 21st General Assembly and Lecture of the Japan Society of Mechanical Engineers Kanto Branch | Hiroshi Hino Laboratory | detail | |
| Deformation behavior analysis of honeycomb structure | University Consortium Tochigi 11th "Student & Company Research Presentation" | Hiroshi Hino Laboratory | detail | |
| Bending characteristics of aluminum alloy honeycomb structure | Japan Society of Mechanical Engineers Tochigi Block Research Exchange Meeting | Hiroshi Hino Laboratory | detail | |
| Sound insulation performance analysis of laminated soundproofing materials using felt, film, and urethane | Vibration Control Engineering Study Group 2014 Technology Exchange Meeting | Yoshio Kurosawa Laboratory | detail | |
| Sound insulation performance analysis of laminated soundproof materials using felt and film | 21st General Assembly and Lecture of the Japan Society of Mechanical Engineers Kanto Branch | Yoshio Kurosawa Laboratory | detail | |
| Realization of 3D Motion of a Simple Rimless Wheel | Robotics and Mechatronics Lecture | Yoshito Ikemata Laboratory | detail | |
| Hypothesis of 3D Human Walking, and Verification of the Hypothesis by 3D Passive Walking | Lecture by System Integration Division, Society of Instrument and Control Engineers | Yoshito Ikemata Laboratory | detail |
Paper presentation
| Title | Laboratory | Contents |
|---|---|---|
| Investigating the effects of first idle time and ambient temperature on real driving emissions of passenger cars | Akira Kato Laboratory | detail |
| Title | Laboratory | Contents |
|---|---|---|
| Vibration and Acoustic Analysis for the Speaker Cover of the Automotive Trim | Yoshio Kurosawa Laboratory | detail |
| FE model for loosely-supported setup of impedance tube measurement | Yoshio Kurosawa Laboratory | detail |
| Sound and Vibration Analysis of the Acoustic Fields Involving Felt when Excited Panel | Yoshio Kurosawa Laboratory | detail |
| Study for Improving Volume of the Assembled Whistle | Yoshio Kurosawa Laboratory | detail |
| Sound Pressure Distribution of Car Interior and Influence of Wall by Car Door Speaker | Yoshio Kurosawa Laboratory | detail |
| Effect of Melt Velocity on Density of Aluminum Alloy Castings in Expendable Pattern Casting Process | Koroyasu Laboratory | detail |
| Effect of Filling Sand Type and Vibration Condition on the Appearance Quality of Aluminum Alloy Castings in the Lost Pattern Casting Method | Koroyasu Laboratory | detail |
| Effect of Sand Type on Heat Absorption of Mold in Lost Pattern Casting of Aluminum Alloy Castings | Koroyasu Laboratory | detail |
| Title | Laboratory | Contents |
|---|---|---|
| Development of sound absorption coefficient prediction tool of laminated ultrafine fibers | Yoshio Kurosawa Laboratory | detail |
| Calculation for normal sound absorption coefficient of porous media using FE model for impedance tube | Yoshio Kurosawa Laboratory | detail |
| Sound Absorption Analysis Using FEM for Meta-Material | Yoshio Kurosawa Laboratory | detail |
| Effects of Reduced Pressure and Casting Design on Mold Filling in Expendable Pattern Casting Process of Thin Wall Aluminum Alloy Castings | Koroyasu Laboratory | detail |
| Effect of hot water flow rate on the density of aluminum compound castings in the lost model casting method | Koroyasu Laboratory | detail |
| Title | Laboratory | Contents |
|---|---|---|
| Development of Material and Form for Vibration Isolation Gloves (Second Report) | Yoshio Kurosawa Laboratory | detail |
| In Lost-foaming of thin-walled aluminum alloy castings, effect of decompression and casting plan on hot water flow in model casting method | Koroyasu Laboratory | detail |
| Title | Laboratory | Contents |
|---|---|---|
| Development of Material and Form for Vibration Isolation Gloves | Yoshio Kurosawa Laboratory | detail |
| Effects of Reduced Pressure, Casting Design and Heat Transfer Resistance of Liquid Resin on Mold Filling in Expendable Pattern Casting Process of Aluminum Alloy | Sadatoshi Koroyasu Lab | detail |
| In Lost-foaming of thin-walled aluminum alloy, effect of heat insulation of coating mold on hot water flow in model casting method | Sadatoshi Koroyasu Lab | detail |
| Effect of reduced pressure and casting plan and heat transfer resistance of liquid resin on the hot water flow of aluminum alloy loss model casting method | Sadatoshi Koroyasu Lab | detail |
| Effect of Vibration Condition on Appearance of Casting in Expendable Casting Process using Artificial Sand | Sadatoshi Koroyasu Lab | detail |
| Title | Laboratory | Contents |
|---|---|---|
| Effect of Artificial Sand Filling on Appearance and Dimensional Accuracy of Casting in Expendable Pattern Casting Process | Sadatoshi Koroyasu Lab | detail |
| Title | Laboratory | Contents |
|---|---|---|
| Effect of Coat Permeability on Mold Filling in Expendable Pattern Casting Process of Thin Wall Aluminum Alloy Casting | Sadatoshi Koroyasu Lab | detail |
| Effect of sand fluidity on mold heat absorption and model deformation in the lost-foam casting method using artificial sand | Sadatoshi Koroyasu Lab | detail |
| Adhesion to the mold and vibration conditions when the vibrating flask for casting a vanishing model is applied to the mold tank. | Sadatoshi Koroyasu Lab | detail |
| Cooling Capacity of Mold and Deformation of Model depending on Sand Fluidity in Expendable Pattern Casting using Artificial Sand | Sadatoshi Koroyasu Lab | detail |
| Damped Acoustic Analysis of an Automotive Cabin with Various Porous Media | Yoshio Kurosawa Laboratory | detail |
| Transmission Loss Analysis for Automotive Panel Laminated with Felt and Film and Felt | Yoshio Kurosawa Laboratory | detail |
| Predicting Automotive Interior Noise Including Wind Noise by Statistical Energy Analysis | Yoshio Kurosawa Laboratory | detail |
| Sound Insulation Analysis of Automotive Soundproof Material using Urethane and Rubber | Yoshio Kurosawa Laboratory | detail |
| Title | Laboratory | Contents |
|---|---|---|
| Effect of coating type air permeability on the flow rate of molten aluminum alloy in the lost model casting method | Sadatoshi Koroyasu Lab | detail |
| Effect of Coat Permeability on Melt Velocity of Molten Aluminum Ally in Expendable Pattern Casting Process | Sadatoshi Koroyasu Lab | detail |
| Effect of coating type air permeability on hot water flow in the lost model casting method of thin-walled aluminum alloy | Sadatoshi Koroyasu Lab | detail |
| Mold Filling in Expendable Pattern Casting Process of Thin Wall Aluminum Alloy Casting | Sadatoshi Koroyasu Lab | detail |
| Development of Vibration Flask and Application for Coat Tank in EPC Foundry | Sadatoshi Koroyasu Lab | detail |
| Development of sound absorption coefficient prediction method for ultrafine fiber materials | Yoshio Kurosawa Laboratory | detail |
| Impact on sound insulation performance due to adhesion of laminated sound absorbing and insulating materials | Yoshio Kurosawa Laboratory | detail |
| Title | Laboratory | Contents |
|---|---|---|
| Electrical potential method for high temperature multi-axis fatigue crack growth | Isogai Takeshi Laboratory | detail |
| Development of Prediction Tool for Sound Absorption | Yoshio Kurosawa Laboratory | detail |
| Modeling considering viscous attenuation and heat dissipation of microacoustic space and examination of equivalent characteristics | Yoshio Kurosawa Laboratory | detail |
| year | Title | Laboratory | Contents |
|---|---|---|---|
| 1998 | Development of microwave diagnostic simulator | Yoshio Kurosawa Laboratory | detail |
| 2001 | Finite element analysis of the attenuation characteristics of a three-dimensional sound field with a sound absorber in a closed space region | Yoshio Kurosawa Laboratory | detail |
| 2002 | FEM analysis of the damping characteristics of a soundproof structure consisting of solid-porous-air | Yoshio Kurosawa Laboratory | detail |
| Finite element analysis of damping characteristics of bead panels laminated with unconstrained damping material (2nd report: Effect of geometric shape of bead panel on mode damping) | Yoshio Kurosawa Laboratory | detail | |
| Finite element analysis of damping characteristics of bead panels laminated with unrestrained damping material (1st report: Comparison of experimental results and numerical calculation results of damping characteristics) | Yoshio Kurosawa Laboratory | detail | |
| 2003 | High Frequency Vibration Analysis of Automotive Body with Viscoelastic Layer | Yoshio Kurosawa Laboratory | detail |
| Vibration damping characteristics of automobile panels laminated with damping material (vibration analysis using a large-scale FE model) | Yoshio Kurosawa Laboratory | detail | |
| 9.Evaluation and Research of Vehicle Body Stiffness and Strength for Car to Car Compatibility | Masashi Makita Laboratory | detail | |
| 2004 | Finite element analysis of damping characteristics of automobile body panels laminated with damping material (3rd report, bead shape that can aggregate the distribution of dissipative energy) | Yoshio Kurosawa Laboratory | detail |
| Finite element analysis of the damped vibration of a viscoelastic block supported by a nonlinear concentrated spring | Yoshio Kurosawa Laboratory | detail | |
| 2005 | FEM analysis of dissipative energy of sound bridge of automobile soundproof structure consisting of elastic body-viscoelastic body-porous body | Yoshio Kurosawa Laboratory | detail |
| 2006 | FEA for damping of structures having elastic bodies, viscoelastic bodies, porous media and gas | Yoshio Kurosawa Laboratory | detail |
| 2008 | Placement of sound absorbing material in 3D chamber space using attenuation contribution with eigenvector as weighting factor | Yoshio Kurosawa Laboratory | detail |
| 2010 | Vibration Transmission between Double Walls in Cars with Damping and Sound Bridges | Yoshio Kurosawa Laboratory | detail |
| Damping response analysis by 3D finite element method of vibration damping and soundproofing structure for automobiles | Yoshio Kurosawa Laboratory | detail | |
| High Frequency Vibration Analysis of Automotive Body Panels with Damping Materials | Yoshio Kurosawa Laboratory | detail | |
| Damped vibration analysis using finite element method with approximated modal damping for automotive double walls with a porous material | Yoshio Kurosawa Laboratory | detail | |
| Tool wear characteristics of the micro milling of optical glass | Takenori Ohno Laboratory | detail | |
| 2011 | Vibration damping response analysis of automobile panels with laminated damping and soundproofing materials | Yoshio Kurosawa Laboratory | detail |
| Non-linear steady vibration analysis of automobile wiper (finite element analysis of elastic body with damping supported by multiple non-linear springs) | Yoshio Kurosawa Laboratory | detail | |
| 2012 | Damping response analysis by 3D finite element method of vibration damping and soundproofing structure with beads | Yoshio Kurosawa Laboratory | detail |
| 2013 | FEM transient response analysis of a box-shaped structure with a damping material layer and beads supported by a nonlinear spring (effect of damping coupling between members on the nonlinear response) | Yoshio Kurosawa Laboratory | detail |
| Nonlinear and Chaotic Motions for a Shock Absorbing Structure Supported by Nonlinear Springs with Hysteresis Using Fast FEA | Yoshio Kurosawa Laboratory | detail | |
| Theoretical Analysis of Damping Due to Air Viscosity in Narrow Acoustic Tubes | Yoshio Kurosawa Laboratory | detail | |
| Acoustic Analysis with Consideration of Damping Effects of Air Viscosity in Sound Pathway | Yoshio Kurosawa Laboratory | detail | |
| Finite Element Analysis for Damped Vibration Properties of Panels Laminated Porous Media | Yoshio Kurosawa Laboratory | detail | |
| Attenuation acoustic analysis of the space inside the car where the sound absorbing material is placed | Yoshio Kurosawa Laboratory | detail | |
| Examination of the Effect of Air Viscosity on Narrow Acoustic Tubes Using FEM Involving Complex Effective Density and Complex Bulk Modulus | Yoshio Kurosawa Laboratory | detail | |
| Acoustic Finite Element Analysis of a Slit Model with Consideration of Viscosity | Yoshio Kurosawa Laboratory | detail | |
| 2014 | Nonlinear transient response analysis for double walls with a porous material supported by nonlinear springs using FEM and MSKE method | Yoshio Kurosawa Laboratory | detail |