Administrative Office 051)510-1471

Name Major Interest Laboratory E-mail Phone

Park No Gill

Geared system design Geared System Lab parkngpusanackr 510-2325

An Deuk Man

Fracture Mechanics Applied Mechanics

Fracture Mechanics Lab dmanpusanackr 510-2326

Yoo Wan Suk

Multi-body Dynamics Computer Aided Engineering Lab

wsyoopusanackr 510-2328

Lee Byung Hoon

system Dynamics System Dynamics Lab mebhleepusanackr 510-2305

Lee Shi Bok

Vibration Control Vibration Control Lab sbleepusanackr 510-2315

Lee Joon Hyun

Non destructive analysis Quality engineering amp failure prevention Lab

johleepusanackr 510-2430

Lim O Kaung

Optimum Design Optimum Design Lab oklimpusanackr 510-2306

Jeong Weuibong

Noise Vibration Vibration and Noise Lab wbjeongpusanackr 510-2337

Hwang Sang Moon

Electromagnetic System Electro-Magnetic Machine

Design Lab shwangpusanackr 510-2468

Cho Youn ho

Structural Health Monitoring Guided wave

NDE

Wave and Structural Health Monitoring Lab

mechcyhpusanackr 510-2323

Cheong Cheol ung

Flow noise Applied Mechanical Acoustics and Noise

Control Lab ccheongpusanackr 510-2311

Mechanical Systems Design Division

Administrative Office 051)510-1471

Name Major Interest Laboratory E-mail Phone

Park Seong hun

Integrated design Material mechanics

Material Mechanics amp Integrated Design Lab

pakspusanackr 510-2330

Noh Yoojeong

Simulation-based Design under Uncertainties

Reliability Engineering

Multidisciplinary design analysis and optimization Lab

yoonohpusanackr 510-2308

Mechanical Systems Design Division

Introduction Vibration Analysis and Design of Gear Box

Gear Geometry of Hypoid Gear System and Tool Design

Continuously Variable Transmission for Automobile

Keywords windturbine gear box worm gear hypoid gear bevel

gearm spherical CVT

Geared System Lab Prof Park No Gill

기입

Mechanical Systems Design Division

사진

Research ReliabilityNVH Design of Gearbox

of wind turbine

CVVLVCR worm design

Hypoid gear tooth design

spherical CVT for automobile

hobmilling cutter design

rotor dynamics

Contact Ofiice Engineering Building 10 10524

Tel +82-51-510-2325

E-mail parkngpnuedu

Mechanical Systems Design Division

Fracture Mechanics Laboratory Prof An Deuk Man Mechanical Systems Design Division

사진

Contact Office Engineering Building 10 10526

Phone +82-51-510-2326

E-mail dmanpusanackr

Introduction The research activities of Prof DeukMan An are at the intersection of

Mechanics Materials Science and Applied Mathematics Concepts and methods

of Mathematics are used to analyze the mechanical behaviors of materials

Particularly stress analysis in crack tips of various materials is our interest

Key Word Fracture Mechanics Crack Stress Analysis Stress Intensity Factor Applied Mathematics

Research Stress analysis in Fracture Mechanics

Calculation of Stress Intensity Factor

3-D Fracture Mechanics

Fracture Mechanics in Piezoelectric Materials

Weight Functions in Fracture Mechanics A) Compact Specimen

B) Compact Specimen Analysis

Introduction bull Laboratory is based on the kinetics of multi-body dynamics bull Computer is used for analyzing and modeling the system It is always inventing the way of appraising and improving performance

Key Word Multi-body system Dynamics Computer Aided Engineering

Computer Aided Engineering Laboratory Prof Yoo Wan Suk Mechanical Systems Design Division

Research Large displacement analysis and experiment

Analysis of a flexible Hose connected to a mother ship

Analysis of unwinding behaviors from spool dispensers

Dynamic Analysis of Floating Wind Turbine

Improvement of maneuvering stability of an vehicle

The development of tire model for ride quality analysis

Vehicle dynamic analysis for real-time based on the HIL

The development of the program for pulling analysis

Correlation of the driving load on the 3D road

Design Change in Circuit Breaker

Contact Office RIMT Room 316

Phone +82-51- 510-2328

E-mail wsyoopusanackr

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Steel

x-displacement[m] z-d

ispl

acem

ent[m

]

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Aluminum

x-displacement[m] z-d

ispl

acem

ent[m

]

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Brass

x-displacement[m] z-d

ispl

acem

ent[m

]

Yoo

Introduction Development of softwares available graphic user interface and 3D animation as well as research on the efficient algorithms for the kinematics dynamics and inverse dynamics of mechanical systems are executed in this lab Key Word kinematics dynamics

System Dynamics Lab Prof Lee Byung Hoon Mechanical Systems Design Division

Research Kinematics and dynamics of multibody systems Inverse kinematics and Tracked Vehicle Dynamics Human Body Dynamics

Contact Office Engineering Building 10 10520

Phone +82-51-510-2306

E-mail mebhleepusanackr

Software for the dynamics of mechanical systems

Software for the dynamics of a high mobility tracked vehicle

Vibration Control Laboratory Prof Lee Shi bok Mechanical Systems Design Division

사진

Research Vibration and Noise Analysis Design and Control

Dynamic Design of High Speed Spindle Systems

Vibration and Noise Reduction Design of Drum Brake

Numerical Analysis of the Coupled Structure-Acoustic

Systems by FEM-BEM

Muffler Development for High Power Heavy Excavators

Machine amp Structure Health Diagnosis

Contact

Office Engineering Building 10 10421

Phone +82-51-510-2315

E-mail sbleepusanackr

Introduction Vibration Design and Control

Motion Control

Noise Analysis Design and Control

Quality Engineering amp Failure Prevention Lab Prof Lee Joon Hyun Mechanical Systems Design Division

Research Quantitative analysis and visualization of defects

in nuclear power plant

Development of ALMS(Acoustic Leak Monitoring

System)

Defect characterization of composite material

using advanced guided wave technique

Develop a test procedure of thickness reduction

caused by FAC in nuclear power plant

Contact Office RMIT Room 319

Phone +82-51- 510-3078

E-mail johleepusanackr

Introduction Failure analysis and material characterization

Development of evaluation technique for components in nuclear power plant

Safety evaluation of structure with ultrasound

Key Word Ultrasound elastic wave health monitoring defect detection composite material acoustic emission

Optimum Design Lab Prof Lim O Kaung Mechanical Systems Design Division

사진

Research Study on Multiscale Simulation and TopologyGA-based Multiobjective

Structure Optimization Technique for Wind Turbine Blade

Development of Fundamental Technologies of substuctureplatform for

Deep Floating Sea Wind Turbine

Development of Reliability-based Optimum Design Technique and Program

for Functionally Graded Composites utilizing Multiscale Simulation

Topology and parameter optimization of a foaming jig reinforcement

structure by the response surface method

Optimum Shape Design of Gearbox Housing for 5MW Wind Turbines

Contact Office Research Institute of Mechanical Technology Room 301

Phone +82-51-510-2306

E-mail oklimpusanackr

Introduction Structural Optimum Design

Creative Design Method

Topology Optimization

Key Word Structural Analysis Optimal Design Design Sensitivity Creative Design Optimum Algorithm

Noise amp Vibration Lab Prof Jeong Weui Bong Mechanical Systems Design Division

Research

Home Appliance (Air conditioner Refrigerator Washing machine Compressor)

Submarine (High damping structure Duct Radiated noise Shock response)

Source Identification and Visualization

Shock Response spectrum Analysis

Fluid-structure Interacted Vibration

FEMBEM Computational analysis

Spectral Analysis of Measured signal

Contact Office Engineering Building 10 Room 10519

Phone +82-51-510-2337

E-mail wbjeongpusanackr

httpwwwnoisepekr

National Institute

12

LG 15

SAMSUNG 10

HYUNDAI 7

Public Corporation

3

Other Major Companies

11

etc 7

Laboratory members

Generalized SW NASTRAN SYSNOISE ANSYS FLUENThellip

Employment status of Alumni

Introduction Experiment and Signal Processing of Noise amp Vibration Analysis of Noise amp Vibration with FEMBEM Fusion Research (Structure + Acoustic + Fluid)

Key Word Noise vibration Computation Experiments FSI

Administrative Office 051)510-1471

Name Major Interest Laboratory E-mail Phone

Park Seong hun

Integrated design Material mechanics

Material Mechanics amp Integrated Design Lab

pakspusanackr 510-2330

Noh Yoojeong

Simulation-based Design under Uncertainties

Reliability Engineering

Multidisciplinary design analysis and optimization Lab

yoonohpusanackr 510-2308

Mechanical Systems Design Division

Introduction Vibration Analysis and Design of Gear Box

Gear Geometry of Hypoid Gear System and Tool Design

Continuously Variable Transmission for Automobile

Keywords windturbine gear box worm gear hypoid gear bevel

gearm spherical CVT

Geared System Lab Prof Park No Gill

기입

Mechanical Systems Design Division

사진

Research ReliabilityNVH Design of Gearbox

of wind turbine

CVVLVCR worm design

Hypoid gear tooth design

spherical CVT for automobile

hobmilling cutter design

rotor dynamics

Contact Ofiice Engineering Building 10 10524

Tel +82-51-510-2325

E-mail parkngpnuedu

Mechanical Systems Design Division

Fracture Mechanics Laboratory Prof An Deuk Man Mechanical Systems Design Division

사진

Contact Office Engineering Building 10 10526

Phone +82-51-510-2326

E-mail dmanpusanackr

Introduction The research activities of Prof DeukMan An are at the intersection of

Mechanics Materials Science and Applied Mathematics Concepts and methods

of Mathematics are used to analyze the mechanical behaviors of materials

Particularly stress analysis in crack tips of various materials is our interest

Key Word Fracture Mechanics Crack Stress Analysis Stress Intensity Factor Applied Mathematics

Research Stress analysis in Fracture Mechanics

Calculation of Stress Intensity Factor

3-D Fracture Mechanics

Fracture Mechanics in Piezoelectric Materials

Weight Functions in Fracture Mechanics A) Compact Specimen

B) Compact Specimen Analysis

Introduction bull Laboratory is based on the kinetics of multi-body dynamics bull Computer is used for analyzing and modeling the system It is always inventing the way of appraising and improving performance

Key Word Multi-body system Dynamics Computer Aided Engineering

Computer Aided Engineering Laboratory Prof Yoo Wan Suk Mechanical Systems Design Division

Research Large displacement analysis and experiment

Analysis of a flexible Hose connected to a mother ship

Analysis of unwinding behaviors from spool dispensers

Dynamic Analysis of Floating Wind Turbine

Improvement of maneuvering stability of an vehicle

The development of tire model for ride quality analysis

Vehicle dynamic analysis for real-time based on the HIL

The development of the program for pulling analysis

Correlation of the driving load on the 3D road

Design Change in Circuit Breaker

Contact Office RIMT Room 316

Phone +82-51- 510-2328

E-mail wsyoopusanackr

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Steel

x-displacement[m] z-d

ispl

acem

ent[m

]

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Aluminum

x-displacement[m] z-d

ispl

acem

ent[m

]

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Brass

x-displacement[m] z-d

ispl

acem

ent[m

]

Yoo

Introduction Development of softwares available graphic user interface and 3D animation as well as research on the efficient algorithms for the kinematics dynamics and inverse dynamics of mechanical systems are executed in this lab Key Word kinematics dynamics

System Dynamics Lab Prof Lee Byung Hoon Mechanical Systems Design Division

Research Kinematics and dynamics of multibody systems Inverse kinematics and Tracked Vehicle Dynamics Human Body Dynamics

Contact Office Engineering Building 10 10520

Phone +82-51-510-2306

E-mail mebhleepusanackr

Software for the dynamics of mechanical systems

Software for the dynamics of a high mobility tracked vehicle

Vibration Control Laboratory Prof Lee Shi bok Mechanical Systems Design Division

사진

Research Vibration and Noise Analysis Design and Control

Dynamic Design of High Speed Spindle Systems

Vibration and Noise Reduction Design of Drum Brake

Numerical Analysis of the Coupled Structure-Acoustic

Systems by FEM-BEM

Muffler Development for High Power Heavy Excavators

Machine amp Structure Health Diagnosis

Contact

Office Engineering Building 10 10421

Phone +82-51-510-2315

E-mail sbleepusanackr

Introduction Vibration Design and Control

Motion Control

Noise Analysis Design and Control

Quality Engineering amp Failure Prevention Lab Prof Lee Joon Hyun Mechanical Systems Design Division

Research Quantitative analysis and visualization of defects

in nuclear power plant

Development of ALMS(Acoustic Leak Monitoring

System)

Defect characterization of composite material

using advanced guided wave technique

Develop a test procedure of thickness reduction

caused by FAC in nuclear power plant

Contact Office RMIT Room 319

Phone +82-51- 510-3078

E-mail johleepusanackr

Introduction Failure analysis and material characterization

Development of evaluation technique for components in nuclear power plant

Safety evaluation of structure with ultrasound

Key Word Ultrasound elastic wave health monitoring defect detection composite material acoustic emission

Optimum Design Lab Prof Lim O Kaung Mechanical Systems Design Division

사진

Research Study on Multiscale Simulation and TopologyGA-based Multiobjective

Structure Optimization Technique for Wind Turbine Blade

Development of Fundamental Technologies of substuctureplatform for

Deep Floating Sea Wind Turbine

Development of Reliability-based Optimum Design Technique and Program

for Functionally Graded Composites utilizing Multiscale Simulation

Topology and parameter optimization of a foaming jig reinforcement

structure by the response surface method

Optimum Shape Design of Gearbox Housing for 5MW Wind Turbines

Contact Office Research Institute of Mechanical Technology Room 301

Phone +82-51-510-2306

E-mail oklimpusanackr

Introduction Structural Optimum Design

Creative Design Method

Topology Optimization

Key Word Structural Analysis Optimal Design Design Sensitivity Creative Design Optimum Algorithm

Noise amp Vibration Lab Prof Jeong Weui Bong Mechanical Systems Design Division

Research

Home Appliance (Air conditioner Refrigerator Washing machine Compressor)

Submarine (High damping structure Duct Radiated noise Shock response)

Source Identification and Visualization

Shock Response spectrum Analysis

Fluid-structure Interacted Vibration

FEMBEM Computational analysis

Spectral Analysis of Measured signal

Contact Office Engineering Building 10 Room 10519

Phone +82-51-510-2337

E-mail wbjeongpusanackr

httpwwwnoisepekr

National Institute

12

LG 15

SAMSUNG 10

HYUNDAI 7

Public Corporation

3

Other Major Companies

11

etc 7

Laboratory members

Generalized SW NASTRAN SYSNOISE ANSYS FLUENThellip

Employment status of Alumni

Introduction Experiment and Signal Processing of Noise amp Vibration Analysis of Noise amp Vibration with FEMBEM Fusion Research (Structure + Acoustic + Fluid)

Key Word Noise vibration Computation Experiments FSI

Introduction Vibration Analysis and Design of Gear Box

Gear Geometry of Hypoid Gear System and Tool Design

Continuously Variable Transmission for Automobile

Keywords windturbine gear box worm gear hypoid gear bevel

gearm spherical CVT

Geared System Lab Prof Park No Gill

기입

Mechanical Systems Design Division

사진

Research ReliabilityNVH Design of Gearbox

of wind turbine

CVVLVCR worm design

Hypoid gear tooth design

spherical CVT for automobile

hobmilling cutter design

rotor dynamics

Contact Ofiice Engineering Building 10 10524

Tel +82-51-510-2325

E-mail parkngpnuedu

Mechanical Systems Design Division

Fracture Mechanics Laboratory Prof An Deuk Man Mechanical Systems Design Division

사진

Contact Office Engineering Building 10 10526

Phone +82-51-510-2326

E-mail dmanpusanackr

Introduction The research activities of Prof DeukMan An are at the intersection of

Mechanics Materials Science and Applied Mathematics Concepts and methods

of Mathematics are used to analyze the mechanical behaviors of materials

Particularly stress analysis in crack tips of various materials is our interest

Key Word Fracture Mechanics Crack Stress Analysis Stress Intensity Factor Applied Mathematics

Research Stress analysis in Fracture Mechanics

Calculation of Stress Intensity Factor

3-D Fracture Mechanics

Fracture Mechanics in Piezoelectric Materials

Weight Functions in Fracture Mechanics A) Compact Specimen

B) Compact Specimen Analysis

Introduction bull Laboratory is based on the kinetics of multi-body dynamics bull Computer is used for analyzing and modeling the system It is always inventing the way of appraising and improving performance

Key Word Multi-body system Dynamics Computer Aided Engineering

Computer Aided Engineering Laboratory Prof Yoo Wan Suk Mechanical Systems Design Division

Research Large displacement analysis and experiment

Analysis of a flexible Hose connected to a mother ship

Analysis of unwinding behaviors from spool dispensers

Dynamic Analysis of Floating Wind Turbine

Improvement of maneuvering stability of an vehicle

The development of tire model for ride quality analysis

Vehicle dynamic analysis for real-time based on the HIL

The development of the program for pulling analysis

Correlation of the driving load on the 3D road

Design Change in Circuit Breaker

Contact Office RIMT Room 316

Phone +82-51- 510-2328

E-mail wsyoopusanackr

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Steel

x-displacement[m] z-d

ispl

acem

ent[m

]

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Aluminum

x-displacement[m] z-d

ispl

acem

ent[m

]

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Brass

x-displacement[m] z-d

ispl

acem

ent[m

]

Yoo

Introduction Development of softwares available graphic user interface and 3D animation as well as research on the efficient algorithms for the kinematics dynamics and inverse dynamics of mechanical systems are executed in this lab Key Word kinematics dynamics

System Dynamics Lab Prof Lee Byung Hoon Mechanical Systems Design Division

Research Kinematics and dynamics of multibody systems Inverse kinematics and Tracked Vehicle Dynamics Human Body Dynamics

Contact Office Engineering Building 10 10520

Phone +82-51-510-2306

E-mail mebhleepusanackr

Software for the dynamics of mechanical systems

Software for the dynamics of a high mobility tracked vehicle

Vibration Control Laboratory Prof Lee Shi bok Mechanical Systems Design Division

사진

Research Vibration and Noise Analysis Design and Control

Dynamic Design of High Speed Spindle Systems

Vibration and Noise Reduction Design of Drum Brake

Numerical Analysis of the Coupled Structure-Acoustic

Systems by FEM-BEM

Muffler Development for High Power Heavy Excavators

Machine amp Structure Health Diagnosis

Contact

Office Engineering Building 10 10421

Phone +82-51-510-2315

E-mail sbleepusanackr

Introduction Vibration Design and Control

Motion Control

Noise Analysis Design and Control

Quality Engineering amp Failure Prevention Lab Prof Lee Joon Hyun Mechanical Systems Design Division

Research Quantitative analysis and visualization of defects

in nuclear power plant

Development of ALMS(Acoustic Leak Monitoring

System)

Defect characterization of composite material

using advanced guided wave technique

Develop a test procedure of thickness reduction

caused by FAC in nuclear power plant

Contact Office RMIT Room 319

Phone +82-51- 510-3078

E-mail johleepusanackr

Introduction Failure analysis and material characterization

Development of evaluation technique for components in nuclear power plant

Safety evaluation of structure with ultrasound

Key Word Ultrasound elastic wave health monitoring defect detection composite material acoustic emission

Optimum Design Lab Prof Lim O Kaung Mechanical Systems Design Division

사진

Research Study on Multiscale Simulation and TopologyGA-based Multiobjective

Structure Optimization Technique for Wind Turbine Blade

Development of Fundamental Technologies of substuctureplatform for

Deep Floating Sea Wind Turbine

Development of Reliability-based Optimum Design Technique and Program

for Functionally Graded Composites utilizing Multiscale Simulation

Topology and parameter optimization of a foaming jig reinforcement

structure by the response surface method

Optimum Shape Design of Gearbox Housing for 5MW Wind Turbines

Contact Office Research Institute of Mechanical Technology Room 301

Phone +82-51-510-2306

E-mail oklimpusanackr

Introduction Structural Optimum Design

Creative Design Method

Topology Optimization

Key Word Structural Analysis Optimal Design Design Sensitivity Creative Design Optimum Algorithm

Noise amp Vibration Lab Prof Jeong Weui Bong Mechanical Systems Design Division

Research

Home Appliance (Air conditioner Refrigerator Washing machine Compressor)

Submarine (High damping structure Duct Radiated noise Shock response)

Source Identification and Visualization

Shock Response spectrum Analysis

Fluid-structure Interacted Vibration

FEMBEM Computational analysis

Spectral Analysis of Measured signal

Contact Office Engineering Building 10 Room 10519

Phone +82-51-510-2337

E-mail wbjeongpusanackr

httpwwwnoisepekr

National Institute

12

LG 15

SAMSUNG 10

HYUNDAI 7

Public Corporation

3

Other Major Companies

11

etc 7

Laboratory members

Generalized SW NASTRAN SYSNOISE ANSYS FLUENThellip

Employment status of Alumni

Introduction Experiment and Signal Processing of Noise amp Vibration Analysis of Noise amp Vibration with FEMBEM Fusion Research (Structure + Acoustic + Fluid)

Key Word Noise vibration Computation Experiments FSI

Fracture Mechanics Laboratory Prof An Deuk Man Mechanical Systems Design Division

사진

Contact Office Engineering Building 10 10526

Phone +82-51-510-2326

E-mail dmanpusanackr

Introduction The research activities of Prof DeukMan An are at the intersection of

Mechanics Materials Science and Applied Mathematics Concepts and methods

of Mathematics are used to analyze the mechanical behaviors of materials

Particularly stress analysis in crack tips of various materials is our interest

Key Word Fracture Mechanics Crack Stress Analysis Stress Intensity Factor Applied Mathematics

Research Stress analysis in Fracture Mechanics

Calculation of Stress Intensity Factor

3-D Fracture Mechanics

Fracture Mechanics in Piezoelectric Materials

Weight Functions in Fracture Mechanics A) Compact Specimen

B) Compact Specimen Analysis

Introduction bull Laboratory is based on the kinetics of multi-body dynamics bull Computer is used for analyzing and modeling the system It is always inventing the way of appraising and improving performance

Key Word Multi-body system Dynamics Computer Aided Engineering

Computer Aided Engineering Laboratory Prof Yoo Wan Suk Mechanical Systems Design Division

Research Large displacement analysis and experiment

Analysis of a flexible Hose connected to a mother ship

Analysis of unwinding behaviors from spool dispensers

Dynamic Analysis of Floating Wind Turbine

Improvement of maneuvering stability of an vehicle

The development of tire model for ride quality analysis

Vehicle dynamic analysis for real-time based on the HIL

The development of the program for pulling analysis

Correlation of the driving load on the 3D road

Design Change in Circuit Breaker

Contact Office RIMT Room 316

Phone +82-51- 510-2328

E-mail wsyoopusanackr

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Steel

x-displacement[m] z-d

ispl

acem

ent[m

]

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Aluminum

x-displacement[m] z-d

ispl

acem

ent[m

]

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Brass

x-displacement[m] z-d

ispl

acem

ent[m

]

Yoo

Introduction Development of softwares available graphic user interface and 3D animation as well as research on the efficient algorithms for the kinematics dynamics and inverse dynamics of mechanical systems are executed in this lab Key Word kinematics dynamics

System Dynamics Lab Prof Lee Byung Hoon Mechanical Systems Design Division

Research Kinematics and dynamics of multibody systems Inverse kinematics and Tracked Vehicle Dynamics Human Body Dynamics

Contact Office Engineering Building 10 10520

Phone +82-51-510-2306

E-mail mebhleepusanackr

Software for the dynamics of mechanical systems

Software for the dynamics of a high mobility tracked vehicle

Vibration Control Laboratory Prof Lee Shi bok Mechanical Systems Design Division

사진

Research Vibration and Noise Analysis Design and Control

Dynamic Design of High Speed Spindle Systems

Vibration and Noise Reduction Design of Drum Brake

Numerical Analysis of the Coupled Structure-Acoustic

Systems by FEM-BEM

Muffler Development for High Power Heavy Excavators

Machine amp Structure Health Diagnosis

Contact

Office Engineering Building 10 10421

Phone +82-51-510-2315

E-mail sbleepusanackr

Introduction Vibration Design and Control

Motion Control

Noise Analysis Design and Control

Quality Engineering amp Failure Prevention Lab Prof Lee Joon Hyun Mechanical Systems Design Division

Research Quantitative analysis and visualization of defects

in nuclear power plant

Development of ALMS(Acoustic Leak Monitoring

System)

Defect characterization of composite material

using advanced guided wave technique

Develop a test procedure of thickness reduction

caused by FAC in nuclear power plant

Contact Office RMIT Room 319

Phone +82-51- 510-3078

E-mail johleepusanackr

Introduction Failure analysis and material characterization

Development of evaluation technique for components in nuclear power plant

Safety evaluation of structure with ultrasound

Key Word Ultrasound elastic wave health monitoring defect detection composite material acoustic emission

Optimum Design Lab Prof Lim O Kaung Mechanical Systems Design Division

사진

Research Study on Multiscale Simulation and TopologyGA-based Multiobjective

Structure Optimization Technique for Wind Turbine Blade

Development of Fundamental Technologies of substuctureplatform for

Deep Floating Sea Wind Turbine

Development of Reliability-based Optimum Design Technique and Program

for Functionally Graded Composites utilizing Multiscale Simulation

Topology and parameter optimization of a foaming jig reinforcement

structure by the response surface method

Optimum Shape Design of Gearbox Housing for 5MW Wind Turbines

Contact Office Research Institute of Mechanical Technology Room 301

Phone +82-51-510-2306

E-mail oklimpusanackr

Introduction Structural Optimum Design

Creative Design Method

Topology Optimization

Key Word Structural Analysis Optimal Design Design Sensitivity Creative Design Optimum Algorithm

Noise amp Vibration Lab Prof Jeong Weui Bong Mechanical Systems Design Division

Research

Home Appliance (Air conditioner Refrigerator Washing machine Compressor)

Submarine (High damping structure Duct Radiated noise Shock response)

Source Identification and Visualization

Shock Response spectrum Analysis

Fluid-structure Interacted Vibration

FEMBEM Computational analysis

Spectral Analysis of Measured signal

Contact Office Engineering Building 10 Room 10519

Phone +82-51-510-2337

E-mail wbjeongpusanackr

httpwwwnoisepekr

National Institute

12

LG 15

SAMSUNG 10

HYUNDAI 7

Public Corporation

3

Other Major Companies

11

etc 7

Laboratory members

Generalized SW NASTRAN SYSNOISE ANSYS FLUENThellip

Employment status of Alumni

Introduction Experiment and Signal Processing of Noise amp Vibration Analysis of Noise amp Vibration with FEMBEM Fusion Research (Structure + Acoustic + Fluid)

Key Word Noise vibration Computation Experiments FSI

Introduction bull Laboratory is based on the kinetics of multi-body dynamics bull Computer is used for analyzing and modeling the system It is always inventing the way of appraising and improving performance

Key Word Multi-body system Dynamics Computer Aided Engineering

Computer Aided Engineering Laboratory Prof Yoo Wan Suk Mechanical Systems Design Division

Research Large displacement analysis and experiment

Analysis of a flexible Hose connected to a mother ship

Analysis of unwinding behaviors from spool dispensers

Dynamic Analysis of Floating Wind Turbine

Improvement of maneuvering stability of an vehicle

The development of tire model for ride quality analysis

Vehicle dynamic analysis for real-time based on the HIL

The development of the program for pulling analysis

Correlation of the driving load on the 3D road

Design Change in Circuit Breaker

Contact Office RIMT Room 316

Phone +82-51- 510-2328

E-mail wsyoopusanackr

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Steel

x-displacement[m] z-d

ispl

acem

ent[m

]

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Aluminum

x-displacement[m] z-d

ispl

acem

ent[m

]

0 1 2 3 4 5 6 7 8 9 10

-8-6-4-2

Brass

x-displacement[m] z-d

ispl

acem

ent[m

]

Yoo

Introduction Development of softwares available graphic user interface and 3D animation as well as research on the efficient algorithms for the kinematics dynamics and inverse dynamics of mechanical systems are executed in this lab Key Word kinematics dynamics

System Dynamics Lab Prof Lee Byung Hoon Mechanical Systems Design Division

Research Kinematics and dynamics of multibody systems Inverse kinematics and Tracked Vehicle Dynamics Human Body Dynamics

Contact Office Engineering Building 10 10520

Phone +82-51-510-2306

E-mail mebhleepusanackr

Software for the dynamics of mechanical systems

Software for the dynamics of a high mobility tracked vehicle

Vibration Control Laboratory Prof Lee Shi bok Mechanical Systems Design Division

사진

Research Vibration and Noise Analysis Design and Control

Dynamic Design of High Speed Spindle Systems

Vibration and Noise Reduction Design of Drum Brake

Numerical Analysis of the Coupled Structure-Acoustic

Systems by FEM-BEM

Muffler Development for High Power Heavy Excavators

Machine amp Structure Health Diagnosis

Contact

Office Engineering Building 10 10421

Phone +82-51-510-2315

E-mail sbleepusanackr

Introduction Vibration Design and Control

Motion Control

Noise Analysis Design and Control

Quality Engineering amp Failure Prevention Lab Prof Lee Joon Hyun Mechanical Systems Design Division

Research Quantitative analysis and visualization of defects

in nuclear power plant

Development of ALMS(Acoustic Leak Monitoring

System)

Defect characterization of composite material

using advanced guided wave technique

Develop a test procedure of thickness reduction

caused by FAC in nuclear power plant

Contact Office RMIT Room 319

Phone +82-51- 510-3078

E-mail johleepusanackr

Introduction Failure analysis and material characterization

Development of evaluation technique for components in nuclear power plant

Safety evaluation of structure with ultrasound

Key Word Ultrasound elastic wave health monitoring defect detection composite material acoustic emission

Optimum Design Lab Prof Lim O Kaung Mechanical Systems Design Division

사진

Research Study on Multiscale Simulation and TopologyGA-based Multiobjective

Structure Optimization Technique for Wind Turbine Blade

Development of Fundamental Technologies of substuctureplatform for

Deep Floating Sea Wind Turbine

Development of Reliability-based Optimum Design Technique and Program

for Functionally Graded Composites utilizing Multiscale Simulation

Topology and parameter optimization of a foaming jig reinforcement

structure by the response surface method

Optimum Shape Design of Gearbox Housing for 5MW Wind Turbines

Contact Office Research Institute of Mechanical Technology Room 301

Phone +82-51-510-2306

E-mail oklimpusanackr

Introduction Structural Optimum Design

Creative Design Method

Topology Optimization

Key Word Structural Analysis Optimal Design Design Sensitivity Creative Design Optimum Algorithm

Noise amp Vibration Lab Prof Jeong Weui Bong Mechanical Systems Design Division

Research

Home Appliance (Air conditioner Refrigerator Washing machine Compressor)

Submarine (High damping structure Duct Radiated noise Shock response)

Source Identification and Visualization

Shock Response spectrum Analysis

Fluid-structure Interacted Vibration

FEMBEM Computational analysis

Spectral Analysis of Measured signal

Contact Office Engineering Building 10 Room 10519

Phone +82-51-510-2337

E-mail wbjeongpusanackr

httpwwwnoisepekr

National Institute

12

LG 15

SAMSUNG 10

HYUNDAI 7

Public Corporation

3

Other Major Companies

11

etc 7

Laboratory members

Generalized SW NASTRAN SYSNOISE ANSYS FLUENThellip

Employment status of Alumni

Introduction Experiment and Signal Processing of Noise amp Vibration Analysis of Noise amp Vibration with FEMBEM Fusion Research (Structure + Acoustic + Fluid)

Key Word Noise vibration Computation Experiments FSI

Introduction Development of softwares available graphic user interface and 3D animation as well as research on the efficient algorithms for the kinematics dynamics and inverse dynamics of mechanical systems are executed in this lab Key Word kinematics dynamics

System Dynamics Lab Prof Lee Byung Hoon Mechanical Systems Design Division

Research Kinematics and dynamics of multibody systems Inverse kinematics and Tracked Vehicle Dynamics Human Body Dynamics

Contact Office Engineering Building 10 10520

Phone +82-51-510-2306

E-mail mebhleepusanackr

Software for the dynamics of mechanical systems

Software for the dynamics of a high mobility tracked vehicle

Vibration Control Laboratory Prof Lee Shi bok Mechanical Systems Design Division

사진

Research Vibration and Noise Analysis Design and Control

Dynamic Design of High Speed Spindle Systems

Vibration and Noise Reduction Design of Drum Brake

Numerical Analysis of the Coupled Structure-Acoustic

Systems by FEM-BEM

Muffler Development for High Power Heavy Excavators

Machine amp Structure Health Diagnosis

Contact

Office Engineering Building 10 10421

Phone +82-51-510-2315

E-mail sbleepusanackr

Introduction Vibration Design and Control

Motion Control

Noise Analysis Design and Control

Quality Engineering amp Failure Prevention Lab Prof Lee Joon Hyun Mechanical Systems Design Division

Research Quantitative analysis and visualization of defects

in nuclear power plant

Development of ALMS(Acoustic Leak Monitoring

System)

Defect characterization of composite material

using advanced guided wave technique

Develop a test procedure of thickness reduction

caused by FAC in nuclear power plant

Contact Office RMIT Room 319

Phone +82-51- 510-3078

E-mail johleepusanackr

Introduction Failure analysis and material characterization

Development of evaluation technique for components in nuclear power plant

Safety evaluation of structure with ultrasound

Key Word Ultrasound elastic wave health monitoring defect detection composite material acoustic emission

Optimum Design Lab Prof Lim O Kaung Mechanical Systems Design Division

사진

Research Study on Multiscale Simulation and TopologyGA-based Multiobjective

Structure Optimization Technique for Wind Turbine Blade

Development of Fundamental Technologies of substuctureplatform for

Deep Floating Sea Wind Turbine

Development of Reliability-based Optimum Design Technique and Program

for Functionally Graded Composites utilizing Multiscale Simulation

Topology and parameter optimization of a foaming jig reinforcement

structure by the response surface method

Optimum Shape Design of Gearbox Housing for 5MW Wind Turbines

Contact Office Research Institute of Mechanical Technology Room 301

Phone +82-51-510-2306

E-mail oklimpusanackr

Introduction Structural Optimum Design

Creative Design Method

Topology Optimization

Key Word Structural Analysis Optimal Design Design Sensitivity Creative Design Optimum Algorithm

Noise amp Vibration Lab Prof Jeong Weui Bong Mechanical Systems Design Division

Research

Home Appliance (Air conditioner Refrigerator Washing machine Compressor)

Submarine (High damping structure Duct Radiated noise Shock response)

Source Identification and Visualization

Shock Response spectrum Analysis

Fluid-structure Interacted Vibration

FEMBEM Computational analysis

Spectral Analysis of Measured signal

Contact Office Engineering Building 10 Room 10519

Phone +82-51-510-2337

E-mail wbjeongpusanackr

httpwwwnoisepekr

National Institute

12

LG 15

SAMSUNG 10

HYUNDAI 7

Public Corporation

3

Other Major Companies

11

etc 7

Laboratory members

Generalized SW NASTRAN SYSNOISE ANSYS FLUENThellip

Employment status of Alumni

Introduction Experiment and Signal Processing of Noise amp Vibration Analysis of Noise amp Vibration with FEMBEM Fusion Research (Structure + Acoustic + Fluid)

Key Word Noise vibration Computation Experiments FSI

Vibration Control Laboratory Prof Lee Shi bok Mechanical Systems Design Division

사진

Research Vibration and Noise Analysis Design and Control

Dynamic Design of High Speed Spindle Systems

Vibration and Noise Reduction Design of Drum Brake

Numerical Analysis of the Coupled Structure-Acoustic

Systems by FEM-BEM

Muffler Development for High Power Heavy Excavators

Machine amp Structure Health Diagnosis

Contact

Office Engineering Building 10 10421

Phone +82-51-510-2315

E-mail sbleepusanackr

Introduction Vibration Design and Control

Motion Control

Noise Analysis Design and Control

Quality Engineering amp Failure Prevention Lab Prof Lee Joon Hyun Mechanical Systems Design Division

Research Quantitative analysis and visualization of defects

in nuclear power plant

Development of ALMS(Acoustic Leak Monitoring

System)

Defect characterization of composite material

using advanced guided wave technique

Develop a test procedure of thickness reduction

caused by FAC in nuclear power plant

Contact Office RMIT Room 319

Phone +82-51- 510-3078

E-mail johleepusanackr

Introduction Failure analysis and material characterization

Development of evaluation technique for components in nuclear power plant

Safety evaluation of structure with ultrasound

Key Word Ultrasound elastic wave health monitoring defect detection composite material acoustic emission

Optimum Design Lab Prof Lim O Kaung Mechanical Systems Design Division

사진

Research Study on Multiscale Simulation and TopologyGA-based Multiobjective

Structure Optimization Technique for Wind Turbine Blade

Development of Fundamental Technologies of substuctureplatform for

Deep Floating Sea Wind Turbine

Development of Reliability-based Optimum Design Technique and Program

for Functionally Graded Composites utilizing Multiscale Simulation

Topology and parameter optimization of a foaming jig reinforcement

structure by the response surface method

Optimum Shape Design of Gearbox Housing for 5MW Wind Turbines

Contact Office Research Institute of Mechanical Technology Room 301

Phone +82-51-510-2306

E-mail oklimpusanackr

Introduction Structural Optimum Design

Creative Design Method

Topology Optimization

Key Word Structural Analysis Optimal Design Design Sensitivity Creative Design Optimum Algorithm

Noise amp Vibration Lab Prof Jeong Weui Bong Mechanical Systems Design Division

Research

Home Appliance (Air conditioner Refrigerator Washing machine Compressor)

Submarine (High damping structure Duct Radiated noise Shock response)

Source Identification and Visualization

Shock Response spectrum Analysis

Fluid-structure Interacted Vibration

FEMBEM Computational analysis

Spectral Analysis of Measured signal

Contact Office Engineering Building 10 Room 10519

Phone +82-51-510-2337

E-mail wbjeongpusanackr

httpwwwnoisepekr

National Institute

12

LG 15

SAMSUNG 10

HYUNDAI 7

Public Corporation

3

Other Major Companies

11

etc 7

Laboratory members

Generalized SW NASTRAN SYSNOISE ANSYS FLUENThellip

Employment status of Alumni

Introduction Experiment and Signal Processing of Noise amp Vibration Analysis of Noise amp Vibration with FEMBEM Fusion Research (Structure + Acoustic + Fluid)

Key Word Noise vibration Computation Experiments FSI

Quality Engineering amp Failure Prevention Lab Prof Lee Joon Hyun Mechanical Systems Design Division

Research Quantitative analysis and visualization of defects

in nuclear power plant

Development of ALMS(Acoustic Leak Monitoring

System)

Defect characterization of composite material

using advanced guided wave technique

Develop a test procedure of thickness reduction

caused by FAC in nuclear power plant

Contact Office RMIT Room 319

Phone +82-51- 510-3078

E-mail johleepusanackr

Introduction Failure analysis and material characterization

Development of evaluation technique for components in nuclear power plant

Safety evaluation of structure with ultrasound

Key Word Ultrasound elastic wave health monitoring defect detection composite material acoustic emission

Optimum Design Lab Prof Lim O Kaung Mechanical Systems Design Division

사진

Research Study on Multiscale Simulation and TopologyGA-based Multiobjective

Structure Optimization Technique for Wind Turbine Blade

Development of Fundamental Technologies of substuctureplatform for

Deep Floating Sea Wind Turbine

Development of Reliability-based Optimum Design Technique and Program

for Functionally Graded Composites utilizing Multiscale Simulation

Topology and parameter optimization of a foaming jig reinforcement

structure by the response surface method

Optimum Shape Design of Gearbox Housing for 5MW Wind Turbines

Contact Office Research Institute of Mechanical Technology Room 301

Phone +82-51-510-2306

E-mail oklimpusanackr

Introduction Structural Optimum Design

Creative Design Method

Topology Optimization

Key Word Structural Analysis Optimal Design Design Sensitivity Creative Design Optimum Algorithm

Noise amp Vibration Lab Prof Jeong Weui Bong Mechanical Systems Design Division

Research

Home Appliance (Air conditioner Refrigerator Washing machine Compressor)

Submarine (High damping structure Duct Radiated noise Shock response)

Source Identification and Visualization

Shock Response spectrum Analysis

Fluid-structure Interacted Vibration

FEMBEM Computational analysis

Spectral Analysis of Measured signal

Contact Office Engineering Building 10 Room 10519

Phone +82-51-510-2337

E-mail wbjeongpusanackr

httpwwwnoisepekr

National Institute

12

LG 15

SAMSUNG 10

HYUNDAI 7

Public Corporation

3

Other Major Companies

11

etc 7

Laboratory members

Generalized SW NASTRAN SYSNOISE ANSYS FLUENThellip

Employment status of Alumni

Introduction Experiment and Signal Processing of Noise amp Vibration Analysis of Noise amp Vibration with FEMBEM Fusion Research (Structure + Acoustic + Fluid)

Key Word Noise vibration Computation Experiments FSI

Optimum Design Lab Prof Lim O Kaung Mechanical Systems Design Division

사진

Research Study on Multiscale Simulation and TopologyGA-based Multiobjective

Structure Optimization Technique for Wind Turbine Blade

Development of Fundamental Technologies of substuctureplatform for

Deep Floating Sea Wind Turbine

Development of Reliability-based Optimum Design Technique and Program

for Functionally Graded Composites utilizing Multiscale Simulation

Topology and parameter optimization of a foaming jig reinforcement

structure by the response surface method

Optimum Shape Design of Gearbox Housing for 5MW Wind Turbines

Contact Office Research Institute of Mechanical Technology Room 301

Phone +82-51-510-2306

E-mail oklimpusanackr

Introduction Structural Optimum Design

Creative Design Method

Topology Optimization

Key Word Structural Analysis Optimal Design Design Sensitivity Creative Design Optimum Algorithm

Noise amp Vibration Lab Prof Jeong Weui Bong Mechanical Systems Design Division

Research

Home Appliance (Air conditioner Refrigerator Washing machine Compressor)

Submarine (High damping structure Duct Radiated noise Shock response)

Source Identification and Visualization

Shock Response spectrum Analysis

Fluid-structure Interacted Vibration

FEMBEM Computational analysis

Spectral Analysis of Measured signal

Contact Office Engineering Building 10 Room 10519

Phone +82-51-510-2337

E-mail wbjeongpusanackr

httpwwwnoisepekr

National Institute

12

LG 15

SAMSUNG 10

HYUNDAI 7

Public Corporation

3

Other Major Companies

11

etc 7

Laboratory members

Generalized SW NASTRAN SYSNOISE ANSYS FLUENThellip

Employment status of Alumni

Introduction Experiment and Signal Processing of Noise amp Vibration Analysis of Noise amp Vibration with FEMBEM Fusion Research (Structure + Acoustic + Fluid)

Key Word Noise vibration Computation Experiments FSI

Noise amp Vibration Lab Prof Jeong Weui Bong Mechanical Systems Design Division

Research

Home Appliance (Air conditioner Refrigerator Washing machine Compressor)

Submarine (High damping structure Duct Radiated noise Shock response)

Source Identification and Visualization

Shock Response spectrum Analysis

Fluid-structure Interacted Vibration

FEMBEM Computational analysis

Spectral Analysis of Measured signal

Contact Office Engineering Building 10 Room 10519

Phone +82-51-510-2337

E-mail wbjeongpusanackr

httpwwwnoisepekr

National Institute

12

LG 15

SAMSUNG 10

HYUNDAI 7

Public Corporation

3

Other Major Companies

11

etc 7

Laboratory members

Generalized SW NASTRAN SYSNOISE ANSYS FLUENThellip

Employment status of Alumni

Introduction Experiment and Signal Processing of Noise amp Vibration Analysis of Noise amp Vibration with FEMBEM Fusion Research (Structure + Acoustic + Fluid)

Key Word Noise vibration Computation Experiments FSI

Electro Mechanical Lab Prof Hwang Sang Moon Mechanical Systems Design Division

Research Design and analysis of BLDC BLAC machines used in EPSs of automobile

Design and analysis of electro motors used in wasing machines

Research of noise and vibration reduction of air-conditioner fan motors

Noise reduction design of electro motors used in home

electronic applications

Design and analysis of compact actuators used in DMB mobile phones

Development of receivers and microspeakers used in the bluetooth

Development of piezometer actuators

Contact Office Engineering Building 10 Room 10518

Phone +82-51-510-2468

E-mail shwangpusanackr

Introduction Electro Mechanical Lab(EM Lab) has researched the development and analaysis of

the applications used in practical industry by cooperating with the cooperation

laboratory and research institute Recently we are performing the noise and

vibration reduction design of the electro machines like motors analytsis of

microspeakers and home electonic applications and developing the next

generation compact multimedia actuators

Key Words Electromagnetic Noice vibration Electro machines Microspeaker

Wave and Structural Health Monitoring Lab

Prof Cho Youn ho

Mechanical Systems Design Division

사진

Introduction Wave mechanics is state of art technique consisting of solid mechanics vibration and instrumentation engineering and with it Wave and SHM lab is developing real time Structural Health Monitoring technique International Joint Research (Northwestern Univ Pennsylvania State Univ Georgia Institute of Tech Beijing Institute of Tech)

Key Word NDE Guided wave Structural Health Monitoring Ultrasonic Transducer Nonlinear Ultrasonic

Research Long range pipe real time inspection system and

imaging by tomography on power plant facilities Develop ultrasound sensor and signal analysis

techniques Detect micro closed crack with nonlinear

acoustics method Guided waves inspection techniques on high

speed rail vehicles and rail Structural health monitoring system on aircraft

and composite structure Guided wave inspection technique for Nuclear

power plant inaccessible area FEM BEM analysis for guided wave propagation

Contact Office Engineering Building 10 Room 10525 Phone +82-51-510-2323 E-mail mechcyhpusanackr

배관 항공기원자력발전소 및 발전 설비 구조물 진단

선박 용접부의 결함 검출 교량 상시 진단 열차선로 상태 진단

구조물의 결함 영상화 및 모델링 센서 디자인

부산대학교 첨단지능형 구조물 손상 모니터링 World Class University 사업단 연구소

Wave and Structural Health Monitoring Lab

Prof Cho Youn ho

Mechanical Systems Design Division

사진

Introduction Wave mechanics is state of art technique consisting of solid mechanics vibration and instrumentation engineering and with it Wave and SHM lab is developing real time Structural Health Monitoring technique International Joint Research (Northwestern Univ Pennsylvania State Univ Georgia Institute of Tech Beijing Institute of Tech)

Key Word NDE Guided wave Structural Health Monitoring Ultrasonic Transducer Nonlinear Ultrasonic

Research Long range pipe real time inspection system and

imaging by tomography on power plant facilities Develop ultrasound sensor and signal analysis

techniques Detect micro closed crack with nonlinear

acoustics method Guided waves inspection techniques on high

speed rail vehicles and rail Structural health monitoring system on aircraft

and composite structure Guided wave inspection technique for Nuclear

power plant inaccessible area FEM BEM analysis for guided wave propagation

Contact Office Engineering Building 10 Room 10525 Phone +82-51-510-2323 E-mail mechcyhpusanackr

배관 항공기원자력발전소 및 발전 설비 구조물 진단

선박 용접부의 결함 검출 교량 상시 진단 열차선로 상태 진단

구조물의 결함 영상화 및 모델링 센서 디자인

부산대학교 첨단지능형 구조물 손상 모니터링 World Class University 사업단 연구소

Applied Mechanical Acoustics and Noise Control Lab Prof Cheong Cheol ung

영문이름

Mechanical Systems Design Division

사진

Research Rotating machinery noise Largesmall wind turbines fan

noise Computational Acoustics CAA schemes Fan broadband

noise Stochastic noise sources Sound Quality Sound index of automobile and

aircraft Fluid Structure Interaction

Sloshing and liquid damper cavitation noise and vibration

Contact Office Engineering Bldg 10 10523

Phone +82-51-510-2311

E-mail ccheongpusanackr

Introduction Flow noise prediction and analysis based on flow dynamics and acoustic

theory and low noise design and noise control of the related machines

rotating machinery home appliance and transportation machines

Key Word Flow noise Fan noise Computational Aeroacoustics Sound Quality Flow-Structure Interaction Cavitation Noise

회전기계류 소음

전산음향학 유체구조상호작용해석

음질평가

Introduction

Material properties and constitutive relations

of engineering and biological materials

Fatigue analysis of mechanical parts and

systems

Integrated design for mechanical systems

Material Mechanics amp Integrated Design Lab Prof Park Seong hun Mechanical Systems Design Division

Research

Material mechanics of engineering and biological

materials

Structural analysis and optimal design of mechanical

systems

Fatigue test amp analysis of mechanical parts and systems

Fluid-structure-dynamics coupled analysis

Magnetic analysis of MR dampers

Design of dental and orthopaedic implants

Design of offshore wind turbine systems

Contact

Office Engineering Building 10 Room 10523

Phone +82-51-510-2330

E-mail pakspusanackr

Development amp analysis of wind turbine platforms

Development of vehicle active suspension systems

High speed spindle system design

CNC Automatic lathe

Experiment amp FEM modal analysis

0 4 8 12

0 4 8 12

B o d

y a

c c e

l e r a

t i o n

D

y n a

m i c

l o a

d

b Ω m Ω w Ω h Ω

b Ω m Ω w Ω h

Ω

Frequency ( Hz )

Frequency ( Hz )

Frequency response of suspension

Container unloading system development for Mobile Harbor

Container unloading system Mobile Harbor

Design of dental implants

Magnetic analysis amp design of MR dampers

Magneto analysis MR damper

Dental implant Structural analysis

Tribological response of femoral hip implants

Artificial Femoral Hip implant

laser

photodetector piezoelectric

actuator

cantilever deflection

probe height

laser

photodetector piezoelectric

actuator

cantilever deflection

probe height

Fatigue experiment amp analysis of Al pipes for air - conditioners

Fatigue experiment Stress intensity analysis

Keyword CAE FEA integrated design

material mechanics fatigue

Introduction

Reliability analysis amp simulation-based design optimization

Uncertainty quantification of input random variables

Computational analysis of mechanical systems

Multidisciplinary Design Analysis and Optimization Lab Prof Noh Yoojeong Mechanical Systems Design Division

Research

Uncertainty quantification for statistical modeling of input random variables such as material properties

Reliability-based design optimization of mechanical systems under input model uncertainty

Keyword simulation-based design under uncertainties uncertainty quantification computational analysis reliability engineering

Contact Office RMIT Room 421

Phone +82-51-510-2308

E-mail yoonohpusanackr

Flow analysis and component optimization of LPDIGDI high pressure fuel pump

Development of a trunk latch module with high reliability using small DC motor

Development of a method predicting optimal pressure distribution of vehicle wiper blades

Cost reduction and optimization of door hinges for large refrigerators

• 슬라이드 번호 1
• 슬라이드 번호 2
• 슬라이드 번호 3
• 슬라이드 번호 4
• 슬라이드 번호 5
• 슬라이드 번호 6
• 슬라이드 번호 7
• 슬라이드 번호 8
• 슬라이드 번호 9
• 슬라이드 번호 10
• 슬라이드 번호 11
• 슬라이드 번호 12
• 슬라이드 번호 13
• 슬라이드 번호 14
• 슬라이드 번호 15

Introduction

Material properties and constitutive relations

of engineering and biological materials

Fatigue analysis of mechanical parts and

systems

Integrated design for mechanical systems

Material Mechanics amp Integrated Design Lab Prof Park Seong hun Mechanical Systems Design Division

Research

Material mechanics of engineering and biological

materials

Structural analysis and optimal design of mechanical

systems

Fatigue test amp analysis of mechanical parts and systems

Fluid-structure-dynamics coupled analysis

Magnetic analysis of MR dampers

Design of dental and orthopaedic implants

Design of offshore wind turbine systems

Contact

Office Engineering Building 10 Room 10523

Phone +82-51-510-2330

E-mail pakspusanackr

Development amp analysis of wind turbine platforms

Development of vehicle active suspension systems

High speed spindle system design

CNC Automatic lathe

Experiment amp FEM modal analysis

0 4 8 12

0 4 8 12

B o d

y a

c c e

l e r a

t i o n

D

y n a

m i c

l o a

d

b Ω m Ω w Ω h Ω

b Ω m Ω w Ω h

Ω

Frequency ( Hz )

Frequency ( Hz )

Frequency response of suspension

Container unloading system development for Mobile Harbor

Container unloading system Mobile Harbor

Design of dental implants

Magnetic analysis amp design of MR dampers

Magneto analysis MR damper

Dental implant Structural analysis

Tribological response of femoral hip implants

Artificial Femoral Hip implant

laser

photodetector piezoelectric

actuator

cantilever deflection

probe height

laser

photodetector piezoelectric

actuator

cantilever deflection

probe height

Fatigue experiment amp analysis of Al pipes for air - conditioners

Fatigue experiment Stress intensity analysis

Keyword CAE FEA integrated design

material mechanics fatigue

Introduction

Reliability analysis amp simulation-based design optimization

Uncertainty quantification of input random variables

Computational analysis of mechanical systems

Multidisciplinary Design Analysis and Optimization Lab Prof Noh Yoojeong Mechanical Systems Design Division

Research

Uncertainty quantification for statistical modeling of input random variables such as material properties

Reliability-based design optimization of mechanical systems under input model uncertainty

Keyword simulation-based design under uncertainties uncertainty quantification computational analysis reliability engineering

Contact Office RMIT Room 421

Phone +82-51-510-2308

E-mail yoonohpusanackr

Flow analysis and component optimization of LPDIGDI high pressure fuel pump

Development of a trunk latch module with high reliability using small DC motor

Development of a method predicting optimal pressure distribution of vehicle wiper blades

Cost reduction and optimization of door hinges for large refrigerators

• 슬라이드 번호 1
• 슬라이드 번호 2
• 슬라이드 번호 3
• 슬라이드 번호 4
• 슬라이드 번호 5
• 슬라이드 번호 6
• 슬라이드 번호 7
• 슬라이드 번호 8
• 슬라이드 번호 9
• 슬라이드 번호 10
• 슬라이드 번호 11
• 슬라이드 번호 12
• 슬라이드 번호 13
• 슬라이드 번호 14
• 슬라이드 번호 15

Introduction

Reliability analysis amp simulation-based design optimization

Uncertainty quantification of input random variables

Computational analysis of mechanical systems

Multidisciplinary Design Analysis and Optimization Lab Prof Noh Yoojeong Mechanical Systems Design Division

Research

Uncertainty quantification for statistical modeling of input random variables such as material properties

Reliability-based design optimization of mechanical systems under input model uncertainty

Keyword simulation-based design under uncertainties uncertainty quantification computational analysis reliability engineering

Contact Office RMIT Room 421

Phone +82-51-510-2308

E-mail yoonohpusanackr

Flow analysis and component optimization of LPDIGDI high pressure fuel pump

Development of a trunk latch module with high reliability using small DC motor

Development of a method predicting optimal pressure distribution of vehicle wiper blades

Cost reduction and optimization of door hinges for large refrigerators

• 슬라이드 번호 1
• 슬라이드 번호 2
• 슬라이드 번호 3
• 슬라이드 번호 4
• 슬라이드 번호 5
• 슬라이드 번호 6
• 슬라이드 번호 7
• 슬라이드 번호 8
• 슬라이드 번호 9
• 슬라이드 번호 10
• 슬라이드 번호 11
• 슬라이드 번호 12
• 슬라이드 번호 13
• 슬라이드 번호 14
• 슬라이드 번호 15