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Mechanical Engineering - 1
♣ Homepage: http://mech.inha.ac.kr
1. Introduction
The Department of Mechanical Engineering offers graduate programs leading to the
Master of Science (MS) and the Doctor of Philosophy (PhD) degrees. Our graduate
course work is designed to provide a comprehensive education in a student's particular
area of research interest. Research area in the Department of Mechanical Engineering
can be classified into the two major areas: 1) Thermal and fluid engineering and 2) Solid
and manufacturing engineering. Areas of specialization in thermal and fluid engineering
include computational fluid dynamics (CFD), CFC alternative system engineering,
turbulence control, combustion and pollution control, noise reduction and air quality
control, advanced energy systems, electrochemical energy systems, smart powertrain,
microfluidic systems etc. Research in the field of solid and manufacturing engineering
include failure control, industrial laser application, system dynamics, vibration and noise
control, advanced material and non-destructive evaluation, smart structures and
systems, solid mechanics, automated production, micro manufacturing systems, electro
mechanics, EAPap actuator, acoustic vibration and signal processing, and ultra precision
nano systems.
Department of Mechanical Engineering
Office: 2N291 Tel: +82-32-860-7300~1 fax: +82-32-868-1716
Mechanical Engineering - 2
2. Majors
1) Thermal and Fluid Engineering
2) Solid and Manufacturing Engineering
3. Faculty Members
1) Kim, Jae-do (김재도)
* Office: 2N386
* Tel: +82-32-860-7316
* E-mail: [email protected]
* Homepage: http://iws.inha.ac.kr/~laser
* Educational Background:
- Ph.D.: Mechanical Engineering /Gent Univ. /Belgium
- M.S.: Mechanical Engineering /KAIST /Korea
* Research Area: Laser materials and precision processing
* Academic Works:
- C-ring stress corrosion test for Inconel 600 and Inconel 690 sleeve joint
welded by Nd:YAG laser/ Corrosion science, Vol.46, pp807~818, 2004.
- Nd:YAG laser cladding of marine propeller with hastelloy C-22/ J. of Applied
Physics A, Vol.79, pp1583~1585, 2004.
- 산업용 레이저 응용, 인하대학교 출판부, 2004.
2) Kim, Kwang-Yong (김광용)
* Office: 2N381
* Tel: +82-32-860-7317
* E-mail: [email protected]
* Homepage: http://cfelab.inha.ac.kr/
* Educational Background:
Mechanical Engineering - 3
- Ph.D.: Mechanical Engineering /KAIST /Korea
- M.S.: Mechanical Engineering /KAIST /Korea
* Research Area
- Fluid Machinery (Fan, Compressor, Pump, Turbine, etc.)
- Micro-Fluidics (Micromixer, Heatsink and Channel and Micro fuel cell, etc.)
- Cooling Systems (Turbine Blades, Nuclear Reactor, etc.)
- Heat Transfer Augmentation Devices
- Other Thermo-Fluid Systems
- Sports Science (Ski Jump, Bobsleigh, etc.)
* Academic Works
- Aerodynamic Performance of Transonic Axial Compressor with a Casing
Groove Combined with Blade Tip Injection and Ejection/Aerospace Science and
Technology/Vol. 46, pp176-187 2015
- Multi-Objective Optimization of Solar Air Heater with Obstacle on Absorber
Plate/Solar Energy/Vol. 114 pp. 364-377 2015
- Convergent-divergent micromixer coupled with pulsatile flow/Sensors and
Actuators B: Chemical/Vol. 211, pp 198-205 2015.
- Optimization of the Aerodynamic and Aeroacoustic Performance of an Axial-
Flow Fan/AIAA Journal/Vol. 52, pp 2032-2044 2014.
3) Kim, Chang Boo (김창부)
* Office: 2N383
* Tel: +82-32-860-7383
* E-mail: [email protected]
* Homepage: http://sysdynamics.inha.ac.kr/
* Educational Background:
- Ph.D.: Mechanical Engineering / Nantes Univ. / France
- M.S.: Mechanical Engineering / Nantes Univ. / France
* Research Area: Dynamics, Flexible Multibody Dynamics
* Academic Works:
- Modeling for the Natural Vibration Analysis of a Rotating Thick Ring, Korean
Society for Railway, pp. 104~111, 2007.
- Dynamics of a Vibrating Micro Three-Axis Ring Gyroscope, Key Engineering
Materials, Vol. 306-308, pp. 1241-1246, 2006.
- A Finite Thin Circular Beam Element for In - Plane Vibration Analysis of
Mechanical Engineering - 4
Curved Beams, Journal of Mechanical Science and Technology, Journal of
Mechanical Science and Technology Vol.19 No.12, pp. 2187~2196, 2005.
4) Lee, Usik (이우식)
* Office: 2N382
* Tel: +82-32-860-7318
* E-mail: [email protected]
* Homepage: http://vanc.inha.ac.kr/
* Educational Background:
- Ph.D.: Mechanical Engineering /Stanford University /U.S.A.
- M.S.: Mechanical Engineering /Stanford University /U.S.A.
* Research Area: Structural Dynamics, Vibration, Computational Applied Mechanics,
Bio/Nanomechanics
* Academic Works:
- Spectral Element Model for Axially Loaded Bending-Shear-Torsion Coupled
Composite Timoshenko Beams / Composite Structures, Vol. 92, No. 12, pp.
2860 -2870 (2010)
- Spectral Element Analysis of the Blood Flow in Human Arteries / Pure and
Applied Chemistry, Vol. 82, No. 1, pp. 321-337 (2010)
- Evaluation of the Structural Properties of Single-Walled Carbon Nanotubes by
Using a Dynamic Continuum Modeling Method / Mechanics of Advances
Materials and Structures, Vol. 15, No. 2, pp. 79-87 (2008)
5) Kwon, Oh-Yang (권오양)
* Office: 2N384
* Tel: +82-32-860-7324
* E-mail: [email protected]
* Homepage: http://nde.inha.ac.kr
* Educational Background:
- Ph.D.: Materials Science and Engineering /UCLA /U.S.A.
- M.S.: Materials Engineering /Seoul Nat'l University /Korea
* Research Area:
- Advanced Structural Materials
- Nondestructive Evaluation (NDE)
Mechanical Engineering - 5
- Automatic Defects Evaluation Systems (ADES)
- Embedded Sensors for Composites
* Academic Works:
- Acoustic Emission Monitoring of Lightning-Damaged CFRP Laminates during
Compression-After-Impact Test, , J. Korean Soc. Nondes. Testing, Vol.32,
2012, pp.269-275
- Improvement of Electrical Conductivity of Carbon-Fiber Reinforced Plastics by
Nano-particles Coating, J. Korean Soc. Composite Mater., Vol.23, No.6, 2010,
pp.1-6
- Parametric and Wavelet Analyses of Acoustic Emission Signals for the
Identification of Failure Modes in CFRP Composites Using PZT and PVDF
Sensors, J. Korean Soc. Nondes. Testing, Vol.27, 2007, pp.520-530
- Embedded PVDF Film Sensor for In-Situ Monitoring of Structural Integrity of
Laminated Composites, Key Engineering Materials, Vol. 270-273, 2004,
pp.1929-1934
6) Choi, Seung-Bok (최승복)
* Office: 2N388
* Tel: +82-32-860-7319
* E-mail: [email protected]
* Homepage: http://www.ssslab.com/
* Educational Background:
- Ph.D.: Mechanical Engineering /Michigan State University /U.S.A
- M.S.: Mechanical Engineering /Michigan State University /U.S.A
* Research Area
- Design and Control of Automotive Systems Using Smart Materials : Active and
Semi-active Suspension (ER Fluid, MR Fluid, Piezoactuator,etc), High Performance
ABS (ER Fluid, MR Fluid, Piezoactuator), Vibration Control of Engine Mount,
Vibration Control of Seat Damper, MR Automotive Brake and Clutch, Drive Haptic
Device, Tire Pressure Monitering and Control, Window Noise Control, etc.
- Vibration Control Applications Using Smart Materials :Robotic Joints, Information
Storage Devices, Servovalve System, Camera Mount of Unmanned Aerial Vehicle,
Vibration and Noise Control of Submarine, Active Mount for Naval Ships,
Appendages of Satellite, Helicopter Blades
- Design and Control of Medical Applications Using Smart Materials: Surgical Robot
Mechanical Engineering - 6
Systems with Haptic Devices, Rehabilitation Mechanisms, Controllable Health
Systems, Energy Harvesting for Medical Power Source
- Robust Controller Design for Linear and Nonlinear Systems with Uncertainties -
Sliding Mode Control, Fuzzy Control, Neural Network Control, H Control, Adaptive
Control, Quantitative Feedback Theory(QFT)
* Academic Works
- D. X. Phu, D. K. Shin and S. B. Choi, “Design of a New Adaptive Fuzzy Controller and Its
Application to Vibration Control of Vehilce Seat Installed with MR Damper”, Smart Materials
and Structures, Submitted : 2014. 12. 19, Revised Submitted: 2015. 5. 21, Accepted :2015. 6. 2,
Published : 2015. 7. 4, Vol.24, No.8, August 2015, Article No.085012(20pp) (SCI)
- H. C. Kim, C. H. Han, P. H. Kim and S. B. Choi, “A New Measurement Method of Magnetic
Flux Density Using Magnenetorheological Fluid Characteristics and a Variable Resistor
Circuit”, Smart Materials and Structures, Submitted: 2015. 4. 28, Revised Submitted : 2015. 5.
27, Accepted : 2015. 6. 4, Published : 2015. 7. 24, Vol.24, No.8, August 2015, Article
No.087002(11) (SCI)
- S. H. Choi, S. M. Kim, P. H. Kim, J. H. Park and and S. B. Choi, “A New Visual Feedback-
Based Magnetorheological Haptic Mater for Robot-Assisted Minimally Invasive Surgery”,
Smart Materials and Structures, Submitted: 2015. 1. 28, Accepted : 2015. 3. 18, Published :
2015. 5. 8, Vol. 24, No.6, June 2015, Article No.065015(13pp) (SCI)
7) Jung, Dong-Soo (정동수)
* Office: 2N389
* Tel: +82-32-860-7320
* E-mail: [email protected]
* Homepage: http://www.caseri.net/
* Educational Background
- Ph.D.: Mechanical Engineering / Univ. of Maryland / USA / 1988
- M.S.: Mechanical Engineering / Univ. of New Brunswick / Canada / 1984
* Research Area: Refrigeration, Two phase heat transfer, Nanofluids heat transfer
* Academic Works:
- Flow condensation heat transfer characteristics of hydrocarbon refrigerants and
dimethyl ether inside a horizontal plain tube, Int. J. of Multiphase Flow, Vol. 34,
No. 7, pp. 628-635, 2008
- Performance of alternative refrigerants for residential air-conditioning
applications, Applied Energy, Vol. 84, No. 10, pp. 985-991, 2007
Mechanical Engineering - 7
- Enhancement of nucleate boiling heat transfer using carbon nanotubes, Int. J.
Heat and Mass Transfer, Vol. 50, No. 21-22, pp. 4499-4502, 2007
8) Cho, Chong-Du (조종두)
* Office: 2N385
* Tel: +82-32-860-7321
* E-mail: [email protected]
* Homepage: http://ismela.inha.ac.kr/
* Educational Background:
- Ph.D.: Mechanical Engineering /University of Michigan, Ann Arbor /U.S.A.
- M.S.: Mechanical Engineering /KAIST/Korea
* Research Area: Solid Mechanics(Composite Material), CAE, MEMS
* Academic Works:
- K.S. Lee, C.D. Cho, " A Feasibility Study of a Noncontact Torque Sensor with
Multiple Hall Sensors," Journal of Sensors, vol.2015, (126935)pp.1~6, 2015.
- W. Zhang, C.D. Cho and Y. Xiao, "An Effective Inverse Procedure for Identifying
Viscoplastic Material Properties of Polymer Nafion," Computational Materials
Science, vol.95, pp.159~165, 2014.
- Y. Xiao, C.D. Cho, "Experimental Investigation and Discussion on the Mechanical
Endurance Limit of Nafion Membrane Used in Proton Exchange Membrane Fuel
Cell," Energies, vol.7, pp.6401~6411, 2014.
- K.K. Poornesh, Y. Xiao and C. Cho, “Thermo-Mechanical Response of Fuel Cell
Electrodes: Constitutive Model and Application in Studying the Structural
Response of Polymer Electrolyte Fuel Cell,” Fuel Cells, vol.13(2), pp.217-226,
2013.
9) Yang, Kyung-Soo (양경수)
* Office: 2N283
* Tel: +82-32-860-7322
* E-mail: [email protected]
* Homepage: http://tcl.inha.ac.kr/
* Educational Background:
- Ph.D.: Mechanical Engineering /Stanford University /U.S.A.
- M.S.: Mechanical Engineering /The Ohio State University /U.S.A.
Mechanical Engineering - 8
- B.S.: Mechanical Engineering /Seoul National University /Korea
* Research Area: Turbulence, Instability and Transition, DNS/LES
* Academic Works:
- Changwoo Kang, Kyung-Soo Yang, Innocent Mutabazi "Thermal effect on large-
aspect-ratio Couette-Taylor system: numerical simulations", 2015, Journal of
Fluid Mechanics, Vol.771, pp.57-78.
- Changwoo Kang, Kyung-Soo Yang "Effects of schmidt number on near-wall
turbulent mass transfer in pipe flow", 2014, Journal of Mechanical Science and
Technology, Vol.28, pp.5027-5042.
- Choon-Bum Choi, Kyung-Soo Yang "Three-dimensional instability in flow past
a rectangular cylinder ranging from a normal flat plate to a square cylinder",
2014, Physics of Fluids, Vol.26, p.061702.
- Kyongjun Lee, Kyung-Soo Yang, "Flow instability in obstructed channel flow",
2013, Computers & Fluids , Vol.84, pp.301-314.
- Choon-Bum Choi, Kyung-Soo Yang, "Three-dimensional instability in the flow
past two side-by-side square cylinders", 2013, Physics of fluids, Vol.25,
p.074107.
10) Hwang, Beong-Bok (황병복)
* Office: 2N366A
* Tel: +82-32-860-7387
* E-mail: bbhwang @inha.ac.kr
* Homepage: http://
* Educational Background:
- Ph.D.: Mechanical Engineering /UC Berkeley /U.S.A.
- M.S.: Mechanical Engineering /University of Michigan /U.S.A
- B.S.: Mechanical Engineering /Inha University /Korea
* Research Area: Metal Forming, Manufacturing Process, Mold design, Press,
Injection
* Academic Works:
- Beong-Bok Hwang, “Deformation Characteristics at Contact Interface in Ring
Compression”, 2011, Tribology Iinternational, Vol. 44, pp.947-955.
- Beong-Bok Hwang, “FE Analysis of the Sensitivity of Friction Calibration Curves
to Dimensional Changes in a Ring Compression Test”, 2011, Metals & Materials
International, Vol. 17, No. 2, pp. 187-197
Mechanical Engineering - 9
- Beong-Bok Hwang, “Numerical Study of Shadow Effect on Slab Deformation in
Reheating Furnace”, 2011, Transactions of Materials Processing, Vol. 20, No. 2,
pp. 132-139.
11) Lee, Chang Eon (이창언)
* Office: 2N284
* Tel: +82-32-860-7323
* E-mail: [email protected]
* Homepage: http://www.inharica.or.kr/
* Educational Background:
- Ph.D.: Total Energy /Toyohashi National University of Technology /Japan
- M.S.: Thermodynamics & Fluid Mechanics /Inha University /Korea
* Research Area: Combustion & Environmental Pollution, Energy,
Internal Combustion Engine
* Academic Works:
- Chang-Eon Lee, Byeonghun Yu, Seungro Lee, “An analysis of the
thermodynamic efficiency for exhaust gas recirculation-condensed water
recirculation-waste heat recovery condensing boilers(EGR-CWR-WHR CB)”,
Energy, Vol. 86, pp. 267-353, 2015
- Byeonghun Yu, Sung-Min Kum, Chang-Eon Lee, Seungro Lee, “Study on the
combustion characteristics of a premixed combustion system with exhaust gas
recirculation”, Energy, Vol 61, pp. 345-353, 2013
- Keeman Lee, Jong-Min Kim, Byeonghun Yu, Chang-Eon Lee, Seungro Lee,
“Effect of various gas compositions on gas interchangeability and combustion
characteristics for domestic appliances”, Journal of Mechanical Science and
Technology, Vol 27/4, pp. 1191-1201, 2013
- Byeonghun Yu, Sung-Min Kum, Chang-Eon Lee, Seungro Lee, “Effects of
exhaust gas recirculation on the thermal efficiency and combustion
characteristics for premixed combustion system”, Energy, Vol 49/1, pp. 375-
383, 2013
- Byeonghun Yu, Sung-min Kum, Chang-Eon Lee, Seungro Lee, "An experimental
study of heat transfer and pollutant emission characteristics at varying
distances between the burner and the heat exchanger in a compact combustion
system", Energy, Vol 42, pp. 350-357, 2012
Mechanical Engineering - 10
12) Lee, Seungbae (이승배)
* Office: 2N281
* Tel: +82-32-860-7325
* E-mail: [email protected]
* Homepage: http://fnc.inha.ac.kr/
* Educational Background:
- Ph.D.: Mechanical Engineering /Univ. of California, Los Angeles /U.S.A.
- M.S.: Mechanical Engineering /Seoul National Univ. /Republic of Korea
* Research Area: Fluid Power System, Wind Energy, Flow Noise, Turbomachinery,
Acoustics, Turbulence
* Academic Works:
- J.-H. Kim, B. Ovgor, K.-H. Cha, J.-H. Kim, S. Lee, K.-Y. Kim, Optimization of
the Aerodynamic and Aeroacoustic Performance of an Axial-Flow Fan, , AIAA
J., Vol. 52., No.9., pp.2032-2044, 2014
- B. Ovgar, S. Lee, S.-K. Lee, A method of micrositing of wind turbine on building
roof-top by using joint distribution of wind speed and direction, and
computational fluid dynamics, JMIST, Vol. 26, No. 12, pp.3981-3988, 2012
- Woo-Seog Song, Seungbae Lee and Dong-Shin Shin, Prediction of
thermoacoustic instability in Rijke tube using CFD-CAA numerical method,
Journal of Mechanical Science and Technology, Vol.25, No.3, pp.675~682, 2011
- T. Nakano, N.Fujisawa, Y. Oguma, Y. Takagi, S. Lee, Experimental study on flow
and noise characteristics of NACA0018 airfoil, Journal of Wind Engineering and
Industrial Aerodynamics, Vol. 95, No.7, pp.511~531, 2007
- Numerical Methods for Engineers 7th Ed. , 2016, McGraw-Hill (Translation)
- Fluid Machinery, 2011, YAS Media, Text book,
13) Seo, Tae-Beom (서태범)
* Office: 2N282
* Tel: +82-32-860- 7327
* E-mail: [email protected]
* Homepage: http://mech.inha.ac.kr/
* Educational Background:
- Ph.D.: Mechanical Engineering /Rensselaer Polytechnic Institute /U.S.A.
- M.S.: Mechanical Engineering /KAIST /Korea
* Research Area: Heat transfer
* Academic Works:
Mechanical Engineering - 11
- Heat transfer characteristics of high temperature molten salt for storage of
thermal energy, KOREAN JOURNAL OF CHEMICAL ENGINEERING 2010 – Vol.
27, No.5 pp. 1452 – 1457.
- Design of Cryogenic Systems for 154 kV HTS Power Cable, IEEE
TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY 2010 – Vol. 20, pp.
1292 – 1295.
- Performance comparison of dish solar collector system with mirror arrays and
receiver shapes, Progress in Computational Fluid Dynamics, An International
Journal 2009 - Vol. 9, No.3/4/5 pp. 208 - 216.
- An evaluation on thermal performance of CPC solar collector, International
Communications in Heat and Mass Transfer 2008 - Vol. 35, No.4 pp. 446 – 457.
- Thermal performances comparisons of the glass evacuated tube solar collectors
with shapes of absorber tube, Renewable Energy 2007 - Vol. 32, No.5 pp. 772
– 795.
- Fundamentals of Engineering Thermodynamics(공업열역학), 2008, Wiley & Sons,
Korea Branch
- Introduction to Heat Transfer(열전달), 2007, John Wiley & Sons, Inc.
14) Cho, Myeong-Woo (조명우)
* Office: 2N285
* Tel: +82-32-860-7306
* E-mail: [email protected]
* Homepage: http://amslab.inha.ac.kr
* Educational Background
- Ph.D.: Mechanical Engineering /Illinois State University /USA
- M.S.: Mechanical Engineering /Seoul University /Korea
* Research Area: Micro Manufacturing System
* Academic Works:
- A study on tool deflection trend using real captured images in micro endmilling
process, KEY ENGINEERING MATERIALS, 364-366, pp662~667, 2008.
- Prediction of surface roughness in high speed milling process using the artificial
neural networks, KEY ENGINEERING MATERIALS, 364-366, pp713~718, 2008
- Ultra precision polishing of Si3N4 ceramics using magnetorheological fluids and
diamond abrasives, JOURNAL OF CERAMIC PROCESSING RESEARCH, 10,
pp290~295, 2009.
Mechanical Engineering - 12
- Characteristics of Micro Electrochemical Polishing to Improve the Surface
Quality of the Stainless Steel Tube, JOURNAL OF IRON AND STEEL
RESEARCH INTERNATIONAL, 19, pp1137~1140, 2012.
- An Evaluation of the Machinability of Nitinol SMA Using Combined Process of
EP and MR Polishing, JOURNAL OF IRON AND STEEL RESEARCH
INTERNATIONAL, 19, pp629~632, 2012.
- Lubrication Property of Magnetorheological Fluid With Nano-Silica Additives
Under Magnetic Field, JOURNAL OF IRON AND STEEL RESEARCH
INTERNATIONAL, , pp519~523, 2012.
- Effective Position Tracking Using B-Spline Surface Equation Based on Wireless
Sensor Networks and Passive UHF-RFID, IEEE TRANSACTIONS ON
INSTRUMENTATION AND MEASUREMENT, 62, pp2456~2464, 2013.
15) Kim, Jaehwan (김재환)
* Office: 2N387
* Tel: +82-32-860-7326
* E-mail: [email protected]
* Homepage: http://ncfc.inha.ac.kr
* Educational Background:
- Ph.D.: Eng. Science and Mech. /The Pennsylvania State University /U.S.A.
- M.S.: Mechanical Engineering /KAIST /Korea
* Research Area:
- Materials: Nanocellulose long-fiber fabrication, Lignin modified resin
development
- Process: Extraction of CNF, Natural composite fabrication process
- Design: Nanocellulose long-fiber reinforced composites
- Simulation: Magnetic field, Microwave, Structure, Molecular dynamic, Dry
* Academic Works:
- SADASIYUNI, Kishor Kumar; KAFY, Abdullahil; ZHAI, Lindong; KO, Hyun-U;
MUN, Seongcheol; Kim, Jaehwan. Transparent and flexible cellulose
nanocrystal/reduced graphene oxide film for proximity sensing. small,
February 2015, 11(8) 994-1002.
- KANG, Byung-Woo; KIM, Jaehwan. Design, fabrication, and evaluation of
stepper motors based on the piezoelectric torsional actuator.
Mechatronics,IEEE/ASME Transactions on, July 2013,18(6) 1850-1854
Mechanical Engineering - 13
- MUN, Seongcheol; YI, Chen; KIM, Jaehwan. Cellulose–titanium dioxide–
multiwalled carbon nanotube hybrid nanocomposite and its ammonia gas
sensing properties at room temperature. Sensors and Actuators B: Chemical,
August 2012, 171 1186-1191.
- MAHADEVA, Suresha K.; KIM, Jaehwan. Conductometric glucose biosensor
made with cellulose and tin oxide hybrid nanocomposite. Sensors and
Actuators B: Chemical, September 2011, 157(1) 177-182.
- YUN, Sungryul; KIM, Jaehwan. Mechanical, electrical, piezoelectric and
electro-active behavior of aligned multi-walled carbon nanotube/cellulose
composites. Carbon, February 2011, 49(2) 518-527.
- JOHN, Amalraj; KO, Hyun-U; KIM, Dong-Gu; KIM, Jaehwan. Preparation of
cellulose-ZnO hybrid films by a wet chemical method and their
characterization. Cellulose, February 2011, 18(3) 675-680
- YUN, Sungryul; KIM, Jaehwan. Multi-walled carbon nanotubes–cellulose
paper for a chemical vapor sensor. Sensors and Actuators B: Chemical,
September 2010, 150(1) 308-313.
- MAHADEVA, Suresha K.; KIM, Jaehwan. Electromechanical behavior of room
temperature ionic liquid dispersed cellulose. The Journal of Physical
Chemistry C, June 2009, 113(28) 12523-12529.
- MAHADEVA, Suresha K.; LEE, Sang-Woo; KIM, Jaehwan. Effect of heat
treatment on the structure, piezoelectricity and actuation behavior of a
cellulose electroactive-paper actuator. Acta Materialia, May 2008, 56(8)
1868-1875.
- KIM, Jaehwan; Acta Materialia YUN, Sungryul; OUNAIES, Zoubeida.
Discovery of cellulose as a smart material. Macromolecules, May 2006,
39(12) 4202-4206.
16) Lee, Sang-Kwon (이상권)
* Office: 2N391A
* Tel: +82-32-860-7305
* E-mail: [email protected]
* Homepage: http://avsp.inha.ac.kr
* Educational Background:
- Ph.D.: ISVR /University of Southampton /U.K.
- M.S.: Mechanical Engineering /Pusan National University /Korea
Mechanical Engineering - 14
* Research Area:
- Automotive NVH (noise, vibration, harshness) Research: Prediction of interior
noise based on TPA (transfer path analysis), Power flow analysis for
identification of vibration energy transfer path in a car, Impact vibration
analysis of a vehicle based on wavelet transformation, Noise reduction of axle
in a SUV (sport utility vehicle) utilizing CAE technology, Reduction of the axle
gear noise on experimental modal analysis, Engine noise reduction utilizing
CAE technology, Dynamic analysis of Fuel Cell Electric Vehicle (FCEV), NVH
analysis of Fuel Cell Electric Vehicle (FCEV), Design of intake muffler for
noise control in Fuel Cell Electric Vehicle (FCEV), Prediction of excitation
force and vibration of the powertrain based on ADAMS software, Measurement
of reverberation time of the carbine inside of an passenger car
- Sound Quality Analysis and Design (SQAD): Design of sound index for the
improvement of sound quality in automotive, Design of luxury sound quality
passenger car, Design of sound index for the sound quality of the axle gear in
SUV, Evaluation of impact sound quality passenger car, Design of sound index
for sound quality in digital appliance (vacuum), Design of sound index for sound
quality in digital appliance (refrigerator), Development of psycho-acoustical
sound metrics for automotive application, Design of sound index for the sound
quality of vehicle tire, Human auditory simulation system research based on
wavelet, Active sound design for brand sound of a passenger car based on
human interface
- Bioacoustic Signal Processing Research: EEG Signal Analysis for product sound,
Physiological acoustics and psychoacoustic analysis, Human response analysis,
Bioacoustics analysis
- Smart Active Noise and Vibration Control: Active noise control for duct noise
control, Active Sound Design Control in Passenger car, Active noise control in
Vehicle, Active noise control in Environment factory,
- Smart Health Monitoring by Acoustics Signal Processing Research: Surface
wave analysis for lamb modes in a surface of a thick plate and a pipe.,
Estimation of the reverberation time in a small chamber with wavelet transform,
Prediction of interior noise inside car by using vibro-acoustic reciprocity
theory, Design of smart material for the measurement of flexible wave
propagation , Design of new barrier for environment noise control, Acoustic
signal processing and inverse problems, Analysis of the wave propagation in an
industrial duct for leaMEGge detection, Health monitoring system design for
Mechanical Engineering - 15
fault detection of refrigerator compressor neural using neural network and
higher order time frequency method, Health monitoring system design for
nuclear power plant utilizing Wigner Vile analysis, Fault detection of industrial
gear box based on higher order time-frequency method, LeaMEGge
identification in industrial gas pipe line utilizing wavelet transform, Fault
detection of rotating machinery utilizing HOS (higher order spectrum), Inverse
problem analysis for non-minimum phase system, Wireless real time
measurement and analysis system for environment noise, Human interaction
system development based on wave analysis and signal processing, Health
monitoring system design for LCD display system (current research)
* Academic Works:
- A modified tonality and its application to objective evaluation of laser printers
noise, APPLIED ACOUSTICS, Vol. 79 number 5, pp9~15, 2014.
- OBJECTIVE EVALUATION OF HUMAN PERCEPTION OF AUTOMOTIVE
SOUND BASED ON PHYSIOLOGICAL SIGNAL OF HUMAN BRAIN,
INTERNATIONAL JOURNAL OF AUTOMOTIVE TECHNOLOGY, Vol. 15
number 2, pp273~282, 2014.
- Source location in plates based on the multiple sensors array method and
wavelet analysis, JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY,
Vol. 28 number 1, pp1~8, 2014.
- Identification of the contribution of a coherent vibration source in a gasoline
direct-injection engine using a two-input single-output model, PROCEEDINGS
OF THE INSTITUTION OF MECHANICAL ENGINEERS PART D-JOURNAL OF
AUTOMOBILE ENGINEERING, Vol. 227 number 12, pp1698~1705, 2013.
- Sound quality index for assessment of sound quality of laser printers based on a
combination of sound metrics, NOISE CONTROL ENGINEERING JOURNAL, Vol.
61 number 6, pp534~546, 2013.
- Prediction of Road Noise Caused by a Tyre in a Passenger Car Based on
Transfer Path Analysis and Vibro-Acoustic Reciprocity, ASIAN JOURNAL OF
CHEMISTRY, Vol 25 number 9, pp5257~5262, 2013.
17) Lee, Eun-Sang(이은상)
* Office: 2N268B
* Tel: +82-32-860-7308
* E-mail: [email protected]
Mechanical Engineering - 16
* Homepage: http://upns.inha.ac.kr
* Educational Background:
- Ph.D.: Mechanical Engineering /KAIST /Korea
- M.S. : Mechanical Engineering /Inha University /Korea
* Research Area:
- Micro Electro Chemical Machining (ECM)
- Ultra clean Electro Polishing (EP)
- Nano process of medical bio-parts and electric car parts
- Ultra-Precision Process System and Analysis
- Semiconductor Process and system
- Ultra-Precision Large size (12”) Wafer Polishing system
* Academic Works:
- “The optimum condition selection of electrochemical polishing and surface
analysis of the stainless steel 316L by the Taguchi Metho” International
Journal of Advanced Manufacturing Technology, 2015
- “Pulse electrochemical machining on Invar alloy: Optical microscopic/SEM and
non-contact 3D measurement study of surface analyses”, Applied surface
science, 2014
- “Effect of pad's surface deformation and oscillation on monocrystalline silicon
wafer surface quality” International journal of Precision Engineering and
Manufacturing, 2014
- “Evaluation of the wafer polishing pad capacity and lifetime in the machining of
reliable elevations”, International journal of Machine Tools and Manufacturing,
2013
- “Investigation of Machining Characteristics for Electrochemical Micro-
Deburring of the AZ31 Lightweight Magnesium Alloy” International journal of
Precision Engineering and Manufacturing, 2011
- “An evaluation of the machinability of nitinol shape memory alloy by
electrochemical polishing” Journal of Mechanical Science and Technology,
2011
18) Beom, Hyeon Gyu (범현규)
* Office: 2N269A
* Tel: +82-32-860-7310
* E-mail: [email protected]
Mechanical Engineering - 17
* Homepage: http://emrl.inha.ac.kr/
* Educational Background:
- Ph.D.: Mechanical Engineering / KAIST /Korea
- M.S.: Mechanical Engineering /KAIST /Korea
* Research Area: Fracture Mechanics, Electromechanics
* Academic Works:
- Size-dependent fracture properties of cracked silicon nanofilms. Materials
Science and Engineering A, Vol. 636, pp. 470-475, 2015.
- Debonding of the interface between a thin film and an orthotropic substrate.
Engineering Fracture Mechanics, Vol. 124-125, pp. 217-233, 2014.
- A unified representation of plane solutions for anisotropic piezoelectric
elasticity. International Journal of Engineering Science, Vol. 72, pp. 22-35, 2013.
19) Kim, Tong Seop (김동섭)
* Office: 2N268A
* Tel: +82-32-860-7307
* E-mail: [email protected]
* Homepage: http://aesl.ecroot.co.kr/
* Educational Background:
- Ph.D.: Mechanical Engineering /Seoul National University /Korea
- M.S.: Mechanical Engineering /Seoul National University /Korea
* Research Area: Gas/Steam turbine, Fuel cell, Power plant technology.
* Academic Works:
- “Analysis of the impact of gas turbine modifications in integrated gasification
combined cycle power plants,” Energy, Vol. 55, pp. 977-986, 2013
- “Economic evaluation of biogas and natural gas co-firing in gas turbine
combined heat and power systems,” Applied Thermal Engineering, Vol. 70, pp.
723-731, 2014
- “Performance of a triple power generation cycle combining gas/steam turbine
combined cycle and solid oxide fuel cell and the influence of carbon capture,”
Applied Thermal Engineering, Vol. 71, pp. 301-309, 2014
- “Using compressor discharge air bypass to enhance power generation of a
steam-injected has turbine for combined heat and power,” Energy, Vol. 76, pp.
390-399, 2014
- “Performance analysis of a multi-stage ultra-supercritical steam turbine using
Mechanical Engineering - 18
computational fluid dynamics,” Applied Thermal Engineering, Vol. 87, pp. 352-
361, 2015
20) Lee, Daeyup (이대엽)
* Office: 2N266
* Tel: +82-32-860-7309
* E-mail: [email protected]
* Homepage: http://www.spl-inha.kr/
* Educational Background:
- Ph.D.: Mechanical Engineering /MIT /U.S.A.
- M.S.: Mechanical Engineering /MIT /U.S.A.
Production engineering /KAIST /Korea
* Research Area:
- Internal Combustion Engine
- Alternative Fuels
- Low emission technology for in-use Vehicles and Construction machines
21) Lee, Chul-Hee(이철희)
* Office: 2N269B
* Tel: +82-32-860-7311
* E-mail: [email protected]
* Homepage: http://avdclab.inha.ac.kr/
* Educational Background:
- Ph.D.: Mechanical Engineering /Univ. of Illinois at Urbana-Champaign /USA
- M.S.: Mechanical Engineering /Inha University /Korea
* Research Area: Robot & Mechanical System Design,
Analysis(Structure/Dynamic/Vibration),
Smart Robot/ Vehicle System & Control,
Tribology
* Academic Works:
- Development of a Semi-empirical Friction Model in Automotive Driveshaft Joint
/ INTERNATIONAL JOURNAL OF AUTOMOTIVE TECHNOLOGY, Vol.9, No.3,
pp.317-322, 2008
- Measurement and Characterization of Friction in Automotive Driveshaft Joints
Mechanical Engineering - 19
Joint / INTERNATIONAL JOURNAL OF AUTOMOTIVE TECHNOLOGY, Vol.8
No.6, pp.723-730, 2007.
- Static Friction Experiments and Verification of an Improved Elastic-Plastic
Model including Roughness Effects / ASME J. of Tribology, Vol. 129, pp.754-
760, 2007.
- Frictional Hysteresis Model for Stick-Slip Behavior of Magnetorheological
Elastomer Under Various Magnetic Field Strengths / JOURNAL OF
TRIBOLOGY-TRANSACTIONS OF THE ASME, Vol. 140,
- Tribological and rheological tests of core-shell typed carbonyl iron/polystyrene
particle-based magnetorheological fluid / Journal of Industrial and Engineering
Chemistry, Vol. 68, pp.342-349, 2018.
- Design and optimization of prosthetic foot by using polylactic acid 3D printing,
JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY, Vol. 31-5, pp.
2393~2398, 2017.
- Fretting friction and wear characteristics of magnetorheological fluid under
different magnetic field strengths / JOURNAL OF MAGNETISM AND
MAGNETIC MATERIALS, 421, pp. 13~18, 2017.
22) Kim, Sun-Min (김선민)
* Office: 2N366B
* Tel: +82-32-860-7328
* E-mail:[email protected]
* Homepage: http://bsl.inha.ac.kr
* Educational Background:
- Ph.D.: Mechanical Engineering /University of Michigan, Ann Arbor /U.S.A.
- M.S.: Biomedical Engineering /University of Michigan, Ann Arbor /U.S.A.
- M.S.: Mechanical Engineering /Seoul National University /Korea
- B.S.: Mechanical Engineering /Seoul National University /Korea
* Research Area:
- Fluid Mechanics, Microfluidics
- Lab on a chip, Bio-M/NEMS
- Biosensors, Biomedical Devices
- Clean Water Technology
* Representative Academic Works:
- "Investigation of Ion Channel Activities of Gramicidin A in the Presence of Ionic
Mechanical Engineering - 20
Liquids Using Model Cell Membranes", Scientific Reports, 2015.
- "Synthetic anion transporters that bear a terminal ethynyl group", Chemical
Communications, 2015.
- "Chromatic Biosensor for Detection of Phosphinothricin Acetyltransferase
(PAT) using Polydiacetylene Vesicles Encapsulated within Automatically
Generated Immuno-hydrogel Beads", Analytical chemistry, 2015.
- "The Binding and Insertion of Imidazolium-based Ionic Surfactants into Lipid
Bilayers: the Effects of Surfactant Size and Salt Concentration", Physical
Chemistry Chemical Physics, 2015.
- "Layer-by-Layer Assembly of 3D Tissue Constructs with Functionalized
Graphene", Advanced Functional Materials, 2014, 24(39), 6136-6144.
- "Automated lipid membrane formation using a PDMS film for ion channel
measurements", Analytical Chemistry, 2014, 86(18), 8910–8915.
- "Effects of Various Extracellular Matrix Proteins on the Growth of HL-1
Cardiomyocytes", Cells Tissues Organs, 2013, 198(5), 349-356.
- “Micro/nanofluidic device for tunable generation of concentration gradient:
application to Caenorhabditis elegans chemotaxis”, Analytical and Bioanalytical
Chemistry, 2014, 406(11), 2679-2686.
- “Automated formation of multicomponent‐encapsulating vesosomes using
continuous flow microcentrifugation”, BiotechnologyJournal, 2013, 8,
1341‐1346.
- “Rapid detection and quantification of bacteria using an integrated
micro/nanofluidic device”, Sensors and Actuators B‐Chemical, 2013, 178,
683‐688.
- “Effect of orientation and density of nanotopography in dermal wound healing”,
Biomaterials, 2012, 33, 8782‐8792.
- “A mini‐microscope for in‐situ monitoring of cells”, Lab On A Chip, 2012, 12(20),
3976‐3982.
- “Active micromixer using electrokinetic effects in the micro/nanochannel
junction”, Chemical Engineering Journal, 2012, 197, 289‐294.
- “Elucidation of molecular interactions between lipid membranes and ionic 1
liquids using model cell membranes”, Soft Matter, 2012, 8, 5501‐5506.
- “Vortex micro T‐mixer with non‐aligned inputs”,Chemical Engineering Journal,
2012, 181, 846~850.
- “Reversible sealing techniques for microdevice applications”, Sensors and
Actuators B‐Chemical, 2011, 153, 301~311.
Mechanical Engineering - 21
- “A novel passive micromixer based on unbalanced splits and collisions of fluid
streams”, Journal of Micromechanics and Microengineering, 2010, 20, 055007‐
1~055007‐10.
- “Fabrication of biological arrays by unconventional lithographic methods”,
Frontiers in Bioscience, 2009, S1, 406~419.
- “Cell research with physically modified microfluidic channels: A review”, Lab
on a Chip, 2008, 8, 1015~1023.
- “Soft lithography for microfluidics: a review”, Biochip Journal, 2008, 2, 1~11.
- “Theoretical and numerical analysis of temperature gradient focusing via joule
heating”, Lab on a Chip, 2007, 7, 898~907.
- “Low‐power concentration and separation using temperature gradient focusing
via joule heating”, Analytical Chemistry, 2006, 78, 8028~8035.
- “Electrokinetic protein preconcentration using a simple Glass/PDMS
microfluidic chip”, Analytical Chemistry, 2006, 78, 4779~4785.
23) Ju, Hyunchul (주현철)
* Office : 2N390
* Tel : +82-32-860-7312
* E-mail : [email protected]
* Homepage : http://espl.inha.ac.kr
* 연구실명(Laboratory) : 에코스마트파워연구실 (Eco-Smart Power Laboratory)
* Educational Background :
- Ph. D : Mechanical Engineering / The Pennsylvania State University, University
Park / U.S.A.
- M.S. : Mechanical Engineering / The University of Nevada, Reno / U.S.A.
* Research Area : Fuel cells, Future Energy Conversion/Storage Systems
* Academic Works :
- J. Ko, G. Lee, Y. Choi, P. Chippar, K. MEGng, H. Ju “Comparison of numerical
simulation results with experimental current density and methanol crossover
data for Direct Methanol Fuel Cells”, JOURNAL OF POWER SOURCES, 196권 3
호, pp935~945, 2011.
- K. MEGng, H. Ju, “Numerical Modeling and Analysis of Micro-Porous Layer
Effects in Polymer Electrolyte Fuel Cells”, JOURNAL OF POWER SOURCES,
194권 2호, pp763~773, 2009.
- H. Ju, “Investigation of the effects of the anisotropy of gas diffusion layers on
Mechanical Engineering - 22
heat and water transport in Polymer Electrolyte Fuel Cells (PEFCs)”,
JOURNAL OF POWER SOURCES, 191권 2호, pp259~268, 2009.
- H. Ju, “Analyzing the effects of immobile liquid saturation and spatial
wettability variation on liquid water transport in diffusion media of polymer
electrolyte fuel cells (PEFCs)”, JOURNAL OF POWER SOURCES, 185권 1호,
pp55~62, 2008.
24) Kim, Joo-hyung (김주형)
* Office: 2N286
* Tel: +82-32-860-7315
* E-mail: [email protected]
* Homepage: http://idtc.inha.ac.kr
*연구실명(Laboratory) : Intelligent device & Thermal Control system lab.
* Educational Background
- Ph.D.: Solid State Electronics / Royal Institute of Technology / Sweden /
2005.12
- M.S.: Mechanical Engineering /Inha University /Korea / 1995.02
- B.S. : Mechanical Engineering /Inha University /Korea / 1993.02
* Research Area: Intelligent device, Fabrication of the multipurpose sensor,
Applications of alternative & green energy
* Academic Works
- 박막 스피커와 투명 스피커, CERAMIST 제17권 제2호 특집, 2014
- Characteristics of AZO Electrode with High Transmittance in Near Infrared
Range, Journal of Nanoscience and Nanotechnology, Vol.14, Num. 12 (2014)
- Cellulose electro-active paper: from discovery to technology applications,
Frontiers in Materials, 2014
- Wireless piezoelectric strain sensing measurement using a frequency
modulation technique, Journal of Intelligent Materials Systems and Structures,
2014
- Flexible Piezoelectric Vibration Energy Harvester using a Trunk-Shaped Beam
Structure Inspired by an Electric Fish Fin, International Journal of Precision
Engineering and Manufacturing, Vol. 15, No. 9, pp. 1967-1971, 2014
- Fault diagnosis of rotating machine by thermography method on support vector
machine, Journal of Mechanical Science and Technology, Volume 28, Issue 8,
pp 2947-2952, 2014
Mechanical Engineering - 23
- Flexible transparent oxide electrode on regenerated cellulose, Materials
Research Bulletin, Vol. 58 (10), 136–140, 2014
- Electrode effects of a cellulose-based electro-active paper energy harvester,
Smart materials and structures, Vol. 28, 1–7, 2014
- Electromechanical Behavior of Green Cellulose-ZnO Hybrid Nanocomposite,
Journal of Biobased Materials and Bioenergy, Vol. 8, 137–142, 2014
- Possibility of Cellulose-Based Electro-Active Paper Energy Scavenging
Transducer, Journal of Nanoscience and Nanotechnology, Vol. 14, 7458-7462
(2014)
- Synthesis of Cellulose-L-Tyrosine–Silica Hybrid Nanocomposites by Sol–Gel
Process for High Performance Applications, Journal of Nanoscience and
Nanotechnology, Vol. 14, 7558–7561, 2014
- Cellulose-Silica/Gold Nanomaterials for Electronic Applications, Journal of
Nanoscience and Nanotechnology, Vol. 14, 7495–7501, 2014
- Nucleate boiling heat transfer coefficients of HFO1234yf on various enhanced
surfaces, International Journal of Refrigeration, vol. 38, pp 198~205, 2014
- Disposable chemical sensors and biosensors made on cellulose paper,
Nanotechnology, Vol 25 092001(7pp), 2014
- Electrical and Optical Properties of Y-Doped Indium Zinc Oxide Films Grown by
RF Magnetron Sputtering, Journal of Nanoscience and Nanotechnology, 13권 9
호, pp6296~6299, 2013.
- 압전 에너지 하베스팅 기술개발 동향, 공업화학, 16권 4호, pp27~34, 2013.
- Characteristics of Y2O3-doped Indium Zinc Oxide films grown by Radio
Frequency magnetron co-sputtering system. Thin Solid Films. Vol. 534, pp.
599-602, 2013
- A flexible paper transistor made with aligned single-walled carbon nanotube
bonded cellulose composite, Current Applied Physics, Vol. 13, No. 5, pp. 897-
901, 2013
- Synthesis and characterization of maleimide-functionalized polystyrene-
SiO2/TiO2 hybrid nanocomposites by sol–gel process. Nanoscale research
letters, Vol. 7, No. 1, pp. 1-14, 2012
- Thin Transparent W-Doped Indium-Zinc Oxide (WIZO) Layer on Glass. Journal
of Nanoscience and Nanotechnology, Vol. 12, No. 7, pp. 5604-5608, 2012
- Lamb wave generation and detection using piezoceramic stack transducers for
structural health monitoring applications. Smart Materials and Structures, Vol.
21, No. 5, pp. 055019, 2012
Mechanical Engineering - 24
- Nondestructive Testing of Train Wheels Using Vertical Magnetization and
Differential-Type Hall-Sensor Array. Instrumentation and Measurement, IEEE
Transactions on, Vol. 61, No. 9, pp. 2346-2353, 2012
- Electrical and Mechanical Characterization of Nanoscale-Layered Cellulose-
Based Electro-Active Paper. Journal of Nanoscience and Nanotechnology, Vol.
11, No. 1, pp. 570-573, 2011
- Highly Durable, Biomimetic Electro-Active Paper Actuator Based on Cellulose
Polypyrrole-Ionic Liquid (CPIL) Nanocomposite. Journal of nanoscience and
nanotechnology, Vol. 11, No. 1, pp. 270-274, 2011
- Piezoelectric electro-active paper (EAPap) speaker. Journal of mechanical
science and technology, Vol. 25, No. 11, pp. 2763-2768, 2011
- A review of piezoelectric energy harvesting based on vibration. International
Journal of precision engineering and manufacturing, Vol. 12, No. 6, pp. 1129-
1141, 2011
- Combinatorial study of WInZnO films deposited by rf magnetron co-sputtering.
Journal of Solid State Chemistry, Vol. 184, No. 9, pp. 2462-2465, 2011
- Effect of interface layer on growth behavior of atomic-layer-deposited Ir thin
film as novel Cu diffusion barrier. Applied Surface Science, Vol. 257, No. 22, pp.
9654-9660, 2011
- Fabrication and testing of cellulose EAPap actuators for haptic application,
Sensors and actuators A-PHYSICAL, Vol. 164, No. 1, pp. 68-73, 2010
25) Yoon, Sang-Hee (윤상희) * Office: 2N290
* Tel: +82-32-860-7314
* E-mail: [email protected]
* Homepage: http://mnsbl.inha.ac.kr
* Educational Background:
- Ph.D.: Mechanical Engineering / University of California, Berkeley / U.S.A.
- M.S.: Mechanical Engineering /Korea Advanced Institute of Science and
Technology / Korea
- B.S.: Mechanical Design and Production Engineering / Yonsei University /
Korea
* Research Area:
- Soft biomechanics using N/MEMS: Understanding the mechano-biological
Mechanical Engineering - 25
progresses of cells and tissues, together with the development of micro and
nanoscale experimental model systems, to quantify critical mechano-biological
events related to the initiation and progression of pathophysiological
consequences and furthermore to establish preventive and therapeutic methods
against the diseases
- Biologically inspired engineering: Gaining ever-deepening insights into the way
that living systems form and function to create new life-enhancing materials
and devices
- Sensing and quantification: Developing flexible (or soft) devices for measuring
physical quantities ranging from molecules to organs to quantitatively address
mechano-biological progresses and, by extension, to develop new biomedical
diagnostic techniques.
* Academic Works:
- Passive control of cell locomotion using micropatterns: the effect of
micropattern geometry on the migratory behavior of adherent cells, Lab on a
Chip, Vol. 12, pp.2391-2402, 2012.
- A biological breadboard platform for cell adhesion and detachment studies, Lab
on a Chip, Vol. 11, pp.3555-3562, 2011.
- Cell adhesion and detachment on gold surfaces modified with a thiol-
functionalized RGD peptide, Biomaterials, Vol. 32, pp.7286-7296, 2011.
26) Kim, Gi-Woo (김기우)
* Office: 2S201
* Tel\: +82-32-860-7313
* E-mail: [email protected]
* Homepage: http://www.ssslab.com
* Educational Background:
- Ph. D: Mechanical Engineering / The Pennsylvania State University-University
Park / U.S.A.
- M.S.: Mechanical Engineering / Inha University/ South Korea
- B.S.: Mechanical Engineering / Inha University/ South Korea
* Research Area: Smart Materials-based sensor and Actuator, Nonlinear Control,
Powetrain Control, Vibration Control, Energy Harvesting
* Academic Works:
- Gi-Woo Kim, " Piezoelectric energy harvesting from torsional vibration in
Mechanical Engineering - 26
internal combustion engines", International Journal of Automotive Technology,
Vol. 16, No. 4, pp. 645 ~ 661, 2015.
- Gi-Woo Kim, Jaehwan Kim and Joo-Hyung Kim,"Flexible piezoelectric vibration
energy harvester using a trunk-shaped beam structure inspired by an electric
fish fin", International Journal of Precision Engineering and Manufacturing Vol.
15, No. 9, pp. 1967~1971, 2014.
- Ji-Sik Kim, Gi-Woo Kim, "New non-contacting torque sensor based on
mechanoluminescence of ZnS:Cu microparticles", Sensors and Actuators A:
Physical, Vol. 128, pp. 125 - 131. 2014.
- J D Jang, G W Kim, D S Bae, and W J Kim, "Rigid multi-body model for dynamic
hysteresis and contact force simulation of automotive clutch damper springs ",
Proceedings of the Institution of Mechanical Engineers, Part D: Journal of
Automobile Engineering, Vol. 228, No. 2, pp. 190 ~ 198, 2014
- Gi-Woo Kim, Ji-Sik Kim, "Dynamic torsional response analysis of
mechanoluminescent paint and its application to non-contacting automotive
torque transducers", Measurement Science and Technology, 2014, Vol. 25, No.
1, 015009
- Gi-Woo Kim, Jaehwan Kim, "Compliant Bistable Mechanism for Low Frequency
Vibration Energy Harvester Inspired by Auditory Hair Bundle
Structures", 2013, Smart Mater. Struct. 22 014005
27) Kang, Tae June (강태준)
* Office: 2N391B
* Tel: +82-32-860-7304
* E-mail: [email protected]
* Homepage: http://mnsl.inha.ac.kr
* Educational Background:
- Ph.D.: School of Mechanical and Aerospace Engineering / Seoul National
University / Korea
- M.S.: School of Mechanical and Aerospace Engineering / Seoul National
University / Korea
- B.S.: Mechanical Aerospace & Automation Engineering / INHA University /
Korea
* Research Area: MEMS/NEMS, Energy Harvesting, Functional Nanomaterials,
and Sensors & Actuators
Mechanical Engineering - 27
* Academic Works:
- High efficiency electrochemical thermal energy harvester using CNT aerogel
sheet electrodes, Nature Communications, Vol. 7, 10600, 2016.
- Nanotube Aerogel Sheet Flutter for Actuation, Power Generation, and
Infrasound Detection", Scientific Reports, Vol. 4, 6105, 2014.
- Flexible thermocell for utilization of body heat, Nano Research, Vol. 7, pp. 443-
452, 2014.
- Electrical power from nanotube and graphene electrochemical thermal energy
harvesters, Advanced Functional Materials, Vol. 22, 477-489, 2012.
4. Course List
Major Course
Code Course Credit
Taught
in English
Thermal and
fluid
Engineering
MEG5001 Special Topics on Applied
Mechanics
3 (flexible)
MEG5002 Modern Transportation Systems
Ⅰ
3 (flexible)
MEG6001 Advanced Fluid Dynamics 3 O(flexible)
MEG6002 Boundary Layer Theory 3 O(flexible)
MEG6003 Advanced Fluid Machinery 3 (flexible)
MEG6004 Advanced Thermodynamics 3 (flexible)
MEG6005 Convection Heat Transfer 3 (flexible)
MEG6006 Combustion Engineering 3 (flexible)
MEG7001 Advanced Internal Combustion
Engine
3 (flexible)
MEG7002 Advanced Refrigeration
Engineering
3 (flexible)
MEG7003 Computational Combustion
Engineering 3 (flexible)
MEG7004 Radiation Heat Transfer 3 (flexible)
MEG7005 Advanced Gas Turbine
Engineering
3 (flexible)
MEG7006 Automotives and Environment 3 (flexible)
Mechanical Engineering - 28
MEG7008 Energy Conversion 3 (flexible)
MEG7009 Turbulent Flow 3 O(flexible)
MEG7010 Computational Turbulence Model 3 (flexible)
MEG7011 Advanced Numerical Analysis 3 (flexible)
MEG7012 Flow Induced Noise 3 (flexible)
MEG7013 Computational Aeroacoustics 3 (flexible)
MEG7033 Bio-MEMS Technology 3 (flexible)
MEG7035 High power electrochemical
systems
3 (flexible)
Solid and
manufacturin
g Engineering
MEG5001 Advanced Thermodynamics 3 (flexible)
MEG5003 Modern Transportation Systems Ⅱ 3 (flexible)
MEG6007 Advanced Dynamics 3 (flexible)
MEG6008 Advanced Theory of Vibration 3 (flexible)
MEG6009 Acoustics Vibration Signal
Processing
3 (flexible)
MEG6010 Linear Control System Theory 3 O flexible)
MEG6011 Advanced Solid Mechanics 3 (flexible)
MEG6012 Finite Element Method 3 (flexible)
MEG6013 Theory of Machine Design 3 (flexible)
MEG6014 Fracture Mechanics 3 (flexible)
MEG6015 Advanced Theory of
Manufacturing Process 3 (flexible)
MEG6016 Advanced Engineering Plasticity 3 O(flexible)
MEG6017 Advanced Theory of Metal
Cutting
3 (flexible)
MEG6018 Advanced Engineering Materials 3 O(flexible)
MEG6019 Advanced Theory of Machine
Tools
3 (flexible)
MEG7014 Advanced Dynamic System
Analysis
3 (flexible)
MEG7015 Structural Dynamics 3 (flexible)
MEG7016 Nonlinear Vibration 3 (flexible)
MEG7017 Acoustics 3 (flexible)
MEG7018 Advanced Noise Engineering 3 (flexible)
MEG7020 Optimal Control 3 O(flexible)
MEG7021 Advanced Theory of CAD/CAM 3 (flexible)
Mechanical Engineering - 29
MEG7023 Non-Conventional Machining
Processes
3 (flexible)
MEG7024 Laser Materials Processing 3 (flexible)
MEG7025 Special Topics in Manufacturing
Technology 3 (flexible)
MEG7026 Electromechanics 3 (flexible)
MEG7027 Design Optimization 3 (flexible)
MEG7028 Nonlinear Solid Mechanics 3 (flexible)
MEG7029 Design of Smart Materials and
MEMS
3 (flexible)
MEG7030 Random Fatigue Analysis 3 (flexible)
MEG7031 Mechanics of Advanced Materials 3 O(flexible)
MEG7032 Theory of Elasticity 3 O(flexible)
MEG7034 Surface Engineering & Tribology 3 O(flexible)
MEG7036 Design of Advanced
Manufacturing System
3 (flexible)
MEG7037 Engineering from biology 3 (flexible)
MEG7038 Sensor Technology 3 (flexible)
MEG7039 Cellular and tissue biomechanics 3 (flexible)
5. Others
1) Industrial Laser Applications Laboratory: Kim, Jae-do (김재도)
* Homepage: http://iws.inha.ac.kr/~laser
* Lab address: 2N264A, Department of Mechanical Engineering, Inha University,
253 Yonghyun-dong, Incheon, 402-751, Korea
* Tel: +82-32-860-7316
* Recent research:
- Femto-second pulsed laser ablation
- Bio-Ceramics laser cladding
- Brittle materials laser cleaving
- Mechanical Simulations
Mechanical Engineering - 30
2) Computational Fluids Engineering Laboratory: Kim, Kwang-Yong (김
광용)
* Homepage: http://cfelab.inha.ac.kr/
* Lab address: 2N280A, Department of Mechanical Engineering, Inha University,
100 Inha-Ro, Incheon, 402-751, Korea
* Tel: +82-32-860-7317
* Research Fields:
- Developments and Applications of Design Optimization Techniques using
Surrogate Models and Three-Dimensional RANS Analysis: Applications of three-
dimensional RANS (Reynolds-averaged Navier-Stokes) analysis and numerical
optimization techniques especially using surrogate models to designs of
turbomachinery (fans, compressors, etc.), heat-augmentation devices (ribs,
dimples, pin-fins, etc.), nuclear reactor components, micro-mixers and micro
heat sinks, etc.
- Applications of Computational Fluid Dynamics (CFD) to Industrial Problems:
Applications of three–dimensional steady/unsteady compressible/ incompressible
RANS Solver to industrial problems.
- Applications of CFD to sports science: Applications of three-dimensional RANS
solver to sports science.
Fluid Machinery
- Fan, Compressor, Pump, Turbine, etc.
Mechanical Engineering - 31
Cooling Systems
- Turbine Blades, Nuclear Reactor, etc.
-
Heat Transfer Augmentation Devices
- Rib, Dimple, Pin-fin, Impingement Jet, Film Cooling, etc.
Mechanical Engineering - 32
Micro-Fluidics
- Micromixer, Heatsink and Channel and Micro fuel cell, etc.
Other Thermo-Fluid Systems
Mechanical Engineering - 33
Sports Sciences
- Ski Jump, Bobsleigh, etc.
3) System dynamics: Kim, Chang Boo (김창부)
* Homepage: http://sysdynamics.inha.ac.kr/
* Lab address: 2N368A, Department of Mechanical Engineering, Inha University,
253 Yonghyun-dong, Incheon, 402-751, Korea
* Tel: +82-32-860-7383
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Stress in Blower Impeller
View of One-Axis Ring Gyroscope
4) Vibration and Noise Control Laboratory - Lee, Usik (이우식)
* Homepage: http://vanc.inha.ac.kr/
* Lab address: Room # 2N369, Department of Mechanical Engineering,
Inha University, 253 Yonghyun-dong, Nam-gu, Incheon, 402-751,
Korea
* Tel: +82-32-860-8780
* Fax: +82-32-866-1434
* Fields of research interest:
This laboratory, VANC emphasizes the study of vibrations, noises, and controls
of mechanical and structural systems. The lab is directed by Professor U. Lee.
Current research activities in VANC include spectral element modeling and
analysis for beams, plates, composite structures and smart structures, dynamics
of damaged structures, damage mechanics and health-monitoring, flow-induced
vibration of piping systems, moving-mass problems, continuum modeling of
periodic lattice structures, wave propagations in structures, dynamics of
automated guide-way transit vehicles, vibration and indoor-noise reduction for
high speed trains, and passive and active controls of structural vibration and
noise. Most recent research interests include the mechanical modeling and
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computational analysis of biomechanical systems and nanostructures. Most
projects are funded by various industrial and government sponsors.
5) Advanced Materials and Non-destructive Evaluation Laboratory:
Kwon, Oh-Yang (권오양)
* Homepage: http://nde.inha.ac.kr
* Lab address: 2N264B, Department of Mechanical Engineering, Inha University,
253 Yonghyun-dong, Incheon, 402-751, Korea
* Tel: +82-32-860-7324
* Fields of research interest:
- Aerospace Grade Composite, Fatigue Damage of CFRP-Metal Joint, Impact
Damage Assessment of Curved Composite Laminates
- Damage diagnosis by AE and Surface Acoustic Wave (SAW), Location of Short
Fatigue Cracks and Their Growth, Fatigue Life Estimation
- New Sensing Techniques for Noncontact NDE; Fiber-Optic Interferometer and
Intensity-Based Optical Sensors, Improved SNR by Wavelet Transform.
- Monitoring of Laser Materials Processing; Laser Cladding and Rapid Prototyping,
Noncontact and Noninvasive Measurement for In-Process
Diagnosis
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6) Smart Structures and Systems Laboratory: Choi, Seung-Bok(최승복)
* Homepage: www.ssslab.com
* Lab address: 2N 380, Department of Mechanical Engineering,
Inha University, 253 Yonghyun-dong, Incheon, 402-751, Korea
* Tel: 032-872-7925
최 승 복(Seung-Bok Choi) Ph.D
Inha Fellow Professor, Dept. of Mechanical
Engineering
Research Area : Control System using Smart
Material, Robust Control, Etc.
Office / Lab: 2N388 / 2N380
E-mail: [email protected]
Experience
1991 ~ present : Inha Fellow Professor, INHA
Univ.
2008 ~ present : regular member, KAST
2015 ~ present : Dean of Graduate School,
INHA Univ.
* Others: Smart Structures and Systems Laboratory was established in September
1991 within the body of Mechanical Engineering Department at Inha University, and
was designated as National Research Laboratory (NRL) by the Korea Ministry of
Science and Technology in June 2001. It aims at conduction multi-disciplinary
future-trended high technology programs focused on smart material
applications(ER/MR Fluids, Shape Memory Alloys, Piezoelectric Materials, and
Electroactive Polymers). The detailed research areas are as follows.
Vibration Control for Ride Quality
- Doosan Infracore
Flow Control for Guided Weapons
-Agency for Defense Development
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- Development of MR mount for
wheel loader
-Smart material applications for
actuating technologies
- Development of guided weapons
using Piezo Stack
Precision Vibration Control
-Korea Institute of Industrial
Technology
-Precision vibration control using MR
damper for Integrated Isolation Mount
Robot-assisted Minimally Invasive
Surgery
-Robot-assisted minimally invasive
surgery using magnetorheological
haptic master
-Force control for realization of tactile
sensing
7) CFC Alternative System Engineering Research Institute: Jung, Dong-
Soo (정동수)
* Homepage: http://www.caseri.net/
* Lab address: 2N 270, Department of Mechanical Engineering,
Inha University, 253 Yonghyun-dong, Incheon, 402-751, Korea
* Tel: +82-32-860-7320
8) Inha Advanced Solid Mechanics Laboratory (IASME Lab.): Cho,
Chong-Du(조종두)
* Homepage: http://iasme.mech.inha.ac.kr/
* Lab address: 2N 374B, Department of Mechanical Engineering,
Inha University, 253 Yonghyun-dong, Incheon, 402-751, Korea
* Tel: + 82-32-860-7321
* Fax: + 82-32-868-1716
* Others: Ph. D. students and Master students are currently working. Many Ph. D.
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students and Master students have been graduated.
Has conducted numerous research projects
* Research Fields :
Optimal design of Disk Brake
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Optimal Design of District Heating System
Stress and Thermal Analysis of DHS Pipe near Bend Section
Design Strategy for minimizing Deformation(Structural and Thermal)
By increasing thickness of each part or changing the material of PUR Foam can be
inproved.
Structural Analysis for Stability Evaluation
Proposal of Optimal Design to reduce Stress Concentration
Injection Molding Simulations
Optimal design of injection product using simulation tool(Mold Flow)
Considerations
- Time of manufacturing process / Temperature variation / Residual Stress
- Reduce of air trap and weld line -> Boundary Conditions change
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MEMS ( Micro-Electro-Mechanical System )
Introduction of Micro mechanics and Quantum mechanics for MEMS analysis with
conventional continuum mechanics.
Full range of strain capability is utilized for MEMS actuator
Requires that MEMS software can handle highly nonlinear behavior
9) Turbulence Control Laboratory: Yang, Kyung-Soo (양경수)
* Homepage: http://tcl.inha.ac.kr
* Lab address: 2N280B, Department of Mechanical Engineering
Inha University, 253 Yonghyun-Dong, Nam-Gu, Incheon,
402-751, Republic of Korea
* Tel: +82-32-860-8771
* Others:
- LES/DNS of turbulent flows
- Flow instability and transition
- Heat and mass transfer
- Multiphase flow
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- Fluid-Structure Interaction
10) Manufacturing Automation Laboratory: Hwang, Beong-Bok (황병복)
* Lab address: 2N271, Department of Mechanical Engineering,
Inha University, 253 Yonghyun-Dong, Nam-Gu, Incheon,
402-751, Republic of Korea
* Tel: +82-32-860-8714
*Others:
- Metal Forming
- Manufacturing Process
- Mold design
- Press
- Injection
11) Combustion & Pollution Control Laboratory: Lee, Chang Eon (이창언)
* Homepage: http://www.inharica.or.kr/
* Lab address: 2N267B, Department of Mechanical Engineering
Inha University, 253 Yonghyun-Dong, Nam-Gu, Incheon,
402-751, Republic of Korea
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* Tel: +82-32-867-4522
* Field of Research Interest:
< Fundamental R&D >
- Analysis of Combustion Phenomena using Direct Numerical Simulation (DNS),
Detailed Reaction Mechanism, and Precise Measurement.
- Revealing and Minimizing Pollutant (NOx, Soot) Formation.
- Oxidizer Controlled Combustion (CO2 Emission Minimizing Technique)
- Laser Diagnostics on Non-Combustion and Combustion Flow Field.
- The Numerical Study on Practical Combustor (Gas Turbine etc.)
- Engine efficiency and emission performance
< Industrial R&D >
- Development of new type rotary engine and combined system
- Development of optimal control technology for reciprocating gas engine of GHP
- Development of the Low NOx High Efficiency Condensing Gas Boiler.
- Development of Metal Fiber Burner and Perforated Burner.
- Development of the Catalytic (Ultra-Low Pollution) Combustor.
- Development of the VOC (Volatile Organic Compound) Removal Appatus.
- Development of the High Efficiency Dryer System.
- Development of New Concept, High Performance and Low Emission Engine
- Development of Diesel Particulate Filter
- Development of HCCI engine
12) Flow Noise Control Laboratory: Lee, Seung-Bae (이승배)
* Homepage: http://fnc.inha.ac.kr/
* Lab address: 2N267A, Department of Mechanical Engineering, Inha University,
253 Yonghyun-dong, Incheon, 402-751, Korea
* Tel: +82-32-860-8745
* Others:
In the ‘Flow Noise Control Lab.’ at Inha Univ., the prediction and control of
aero-acoustics caused by aerodynamic mechanism have been performed.
Recently, we have initiated research on the mobile hydraulic system design
funded by KIAT. Optimal design of turbomachine has been performed in terms of
performance and noise reduction by system-inspired technology, including wind-
Turbine System.
* Main Research Area
- Construction Vehicle Fluid Power Control
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- Design of Turbomachinery / Inverse Design Method / Nature-inspired Design
- Active & Passive control of Flow Noise Source
- Computational Aero-Acoustics
- Turbulence Control Sensor & Actuator
- Indoor Air Quality Control Algorithm / Controller\
- Wind Energy Assessment and Wind Farm Design / Wind Turbine System Design
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Turbomchinery Design Aero-Acoustics
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13) New Renewable Energy Technology Laboratory: Seo, Tae-Beom (서
태범)
* Lab address: 2N185, Department of Mechanical Engineering, Inha University, 253
Yonghyun-dong, Incheon, 402-751, Korea
* Tel: +82-32-874-7327
* Research Field:
-Concentrated Solar Power (CSP), Hydrogen Production using Solar Thermal
(1) 200kW Solar Power Tower(Dae-gu)
This figure shows the input and output windows of the power tower cycle
simulation software. Using the software, the steady state performance of the
system can be analyzed. The steady state analysis can be applied for the basic
design of the system. The solar input is not steady at all so that the transient
analysis is needed to look at the each component reaction to the transient solar
input. The transient analysis is being performed using the commercial software.
(2) A Two-step Thermochemical Cycles using Dish type Solar Thermal System
A two-step thermochemical cycles is being studied. These methods involve
hydrogen production by water splitting at a relatively low temperature. The
equations below (eq. 1) and (eq. 2) denote the two-step thermochemical cycle
using a ferrite redox pair.
(1400~1600 °C) (eq. 1)
Fluid Power Control
Wind Energy
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(900~1100 °C) (eq. 2)
(1) CO2-Reforming of Methane using Dish type Solar Thermal System
Natural gas reforming, the most common process for hydrogen production, is a
catalytic reaction between low hydrocarbons and CO2 that proceeds as follow.
(870~1040 °C)
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14) Advanced Manufacturing Systems Laboratory: Cho, Myeong-Woo
(조명우)
*Homepage: http://amslab.inha.ac.kr
* Lab address: 2N277, Department of Mechanical Engineering,
Inha University, 253 Yonghyun-dong, Incheon, 402-751, Korea
*Tel: 82-32-860-7306
15) Creative Research Center for Nanocellulose Future Composites/
Machine Design Laboratory: Kim, Jaehwan (김재환)
* Homepage: http://ncfc.inha.ac.kr/
* Lab address: 301 Inha Industrial Technology Complex, Gaetbeol-ro, Yeonsu-gu,
Incheon, 21999, Korea
* Tel : +82-32-874-7325
* Recent researches
- Nanocellulose Long-Fiber Reinforced Composites
- Piezoelectric smart devices
- Transparent and Flexible Haptic Actuators
- Computer Aided Machine Design
- Reconfigurable Lens Actuators
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16) Acoustic Vibration and Signal Processing Laboratory: Lee, Sang-
Kwon (이상권)
* Homepage: http://avsp.inha.ac.kr/
* Lab address: 2N368B, 2N675, Department of Mechanical Engineering,
Inha University, 253 Yonghyun-dong, Incheon, 402-751, Korea
* Tel: +82-32-860-8650, 8776
* Research fields:
(1) Automotive NVH (noise, vibration, harshness) Research
- Prediction of interior noise based on TPA (transfer path analysis), Reduction of
the axle gear noise on experimental modal analysis, Engine noise reduction
utilizing CAE technology, Design of intake muffler for noise control in Fuel Cell
Electric Vehicle (FCEV), Prediction of excitation force and vibration of the
powertrain based on ADAMS software,
(2) Sound Quality Analysis and Design (SQAD)
- Design of sound index for the improvement of sound quality in automotive,
Design of luxury sound quality passenger car, Development of psycho-
acoustical sound metrics for automotive application, Active sound design for
brand sound of a passenger car based on human interface
(3) Bioacoustic Signal Processing Research
- EEG Signal Analysis for product sound, Physiological acoustics and
psychoacoustic analysis, Human response analysis, Bioacoustics analysis
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(4) Smart Active Noise and Vibration Control
- Active noise control for duct noise control, Active Sound Design Control in
Passenger car, Active noise control in Vehicle, Active noise control in
Environment factory,
(5) Smart Health Monitoring by Acoustics Signal Processing Research
- Surface wave analysis for lamb modes in a surface of a thick plate and a pipe.,
Estimation of the reverberation time in a small chamber with wavelet transform,
Prediction of interior noise inside car by using vibro-acoustic reciprocity theory,
Health monitoring system design for LCD display system (current research)
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17) UPNS (Ultra Precision Nano System Laboratory): Lee, Eun-Sang(이은
상)
* Homepage: http://upns.inha.ac.kr/
* Lab address: 2N265B
* Tel: +82-32-860-8778
* Others:
UPNS Lab. researches special processes that make a nano scale demand which are
Micro Electro Chemical Machining (ECM), Ultra clean Electro polishing (EP),
Environmental friendly energy parts, Medical bio-parts, Semiconductor parts.
And we perform Ultra-Precision process system and analysis, Ultra-Precision
aeronautical satellite parts, Nano-surface analysis systems parts of a Electric car,
LED, LCD, Mobile phone display, Large size 12” Wafer Polishing, Ultra Precision
lapping, IED(In-Process Electrical Dressing), Silicon Wafer Dicing and manufacturing
part of electrical system or mechanical system. These processes make a nano-scale
demand for advanced industry.
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18) Electromechanics Research Laboratory: Beom, Hyeon Gyu (범현규)
* Homepage: http://emrl.inha.ac.kr/
* Lab address: 2N 261B, Department of Mechanical Engineering, Inha University,
253 Yonghyun-dong, Incheon, 402-751, Korea
* Tel: +82-32-876-9710
* Research field:
- Electromechanics
- Fracture mechanics
- Finite Element Method
- PacMEGging of Microelectronic Device
- System Design and Structural Analysis
- Composite Material
- Plasticity and Viscoplasticity
- Micromechanics and Metallurgy
- Biomimetics
_ Multiscale modeling and analysis
19) Thermal Power System Laboratory: Kim, Tong Seop (김동섭)
* Homepage: http://aesl.ecroot.co.kr/
* Lab address: 2N264C, Inha University, 100, Inha-ro Nam-gu, Incheon,
Korea
* Tel: +82-32-876-7308
* Research Fields:
Gas Turbine
▪ Performance analysis and diagnostics of gas turbine
▪ Performance analysis and experiment of MGT(Microturbine) for CHP(Combined
Heat and Power)
▪ Secondary flow analysis using CFD(Computational Fluid Dynamics)
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Fuel cell
▪ Design and off-design analysis on PEMFC, MCFC and SOFC
Integrated energy systems
▪ IGCC (Integrated Gasification Combined Cycle)
▪ IGFC (Integrated Gasification Fuel Cell)
▪ NGCC/SOFC with carbon capture
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20) Smart Powertrain Laboratory: Lee, Daeyup (이대엽)
* Homepage: http://www.spl-inha.re.kr
* Lab address: 2N267C, Department of Mechanical Engineering, Inha University,
253 Yonghyun-dong, Incheon, 402-751, Korea
* Tel: +82-32-876-7443
* Research Fields:
- Internal Combustion Engine
- Alternative Fuels
- Low emission technology for in-use Vehicles and Construction machines
21) Advanced Vehicle Design & Control Laboratory: Lee, Chul-Hee(이철
희)
* Homepage: http://avdclab.inha.ac.kr/
* Lab address: 2N380, Department of Mechanical Engineering,
Inha University, 253 Yonghyun-dong, Incheon, 402-751, Korea
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* Tel: +82-70-8249-7312
* Research Areas:
- Component Design & Optimization
- Dynamics & Control of Smart Systems
- Computational Analysis & Vibration Analysis
- Surface Engineering & Tribology
22) Biohybrid Systems Laboratory: Kim, Sun-Min (김선민)
* Homepage: http://bsl.inha.ac.kr
* Lab address: 4-105 & 2N-104, Dept. of Mechanical Engineering, Inha University,
253 Yonghyun-Dong, Nam-Gu, Incheon, 402-751, Korea
* Tel: +82-32-860-8990
* Research Field
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* Ongoing projects
23) Eco-Smart Power Laboratory - Ju, Hyunchul (주현철)
* Homepage : http://espl.inha.ac.kr
* Lab address : 2N 265A, Department of Mechanical Engineering,
Inha University, 253 Yonghyun-dong, Incheon, 402-751, Korea
* Tel : 82-32-873-7312
* Research Areas
- Fuel cell fabrication and test
- Fuel cell, fuel cell system analysis
- Hydrogen storage systems
- Portable and electric vehicle batteries (modeling and simulations)
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24) Intelligent device & Thermal Control system Lab: Kim, Joo-hyung(김주
형)
* Homepage: http://idtc.inha.ac.kr
* Lab address : 2N270, Department of Mechanical Engineering,
Inha University, 253 Yonghyun-dong, Incheon, 402-751, Korea
* Tel: +82-32-860-7320
* Research filed & Interests
- Development of micro and nano device technologies.
- Hybrid nano-composite materials
- Transparent conducting oxide thin film
- Multi-purpose sensors
- (S)OTEC Power plants
- Thermography & thermal control system.
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25) Micro/Nano Soft Biomechanics Laboratory: Yoon, Sang-Hee (윤상희)
* Homepage: http://mnsbl.inha.ac.kr
* Lab address: 2N278A, Department of Mechanical Engineering,
Inha University, 100 Inha-ro, Nam-gu, Incheon 402-751, Korea
* Tel: +82-32-860-7314
* Fax: +82-32-868-1716
* Fields of research interest:
Our mission is to advance understanding of soft biomechanics problems by
developing nano/microelectromechanical systems (N/MEMS)-based experimental
model systems, with the ultimate aim to shed light on the mechanobiological
progresses of human diseases. Our focus is equivalently placed on biologically
inspired engineering for mechanical and biomedical applications and soft sensor
development, in hopes of developing devices to communicate with human. The
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specific research areas include soft biomechanics, biologically inspired engineering,
sensing and quantification (soft sensors), and N/MEMS.
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26) Micro/Nano Systems Laboratory: Kang, Tae June (강태준)
* Homepage: http://mnsbl.inha.ac.kr
* Lab address: 2N391B, Department of Mechanical Engineering,
Inha University, 100 Inha-ro, Nam-gu, Incheon 402-751, Korea
* Tel: +82-32-860-7304
* Fields of research interest:
With the power requirements for microelectronics ever decreasing, use of ambient
energy sources existing virtually everywhere and are essentially inexhaustible is
becoming feasible for either replacing or augmenting battery usage. We strive to
introduce novel energy harvesting technologies using our diverse expertise in
nanoscience and micro/nanofabrication. Since nanoscale materials have extremely
high surface to volume ratio as well as unexpected reactivity, even minor
disturbances in the surrounding cause the material to change its physical and
chemical properties. These meaningful changes enable capture of ambient energy that
has not been possible to harness.