Dr. Y.H. Huang leads to Experimental Mechanics Laboratory (EML@EB107-2) in National Taiwan University (NTU) from August 2018 to present. His group is original in National Taiwan University of Science and Technology from 2011 to July 2018. Research fields are Piezoelectric Material and Piezoelectricity, Vibration, Solid Mechanics, and Experimental Mechanics. Recently, the sensors and actuators, piezoelectric energy harvester, fluid-structure interaction on piezoelectric structure, photoelasticity, and mechanical property of materials are mainly studied in detail.

Experimental techniques, finite element numerical calculation and theoretical analysis are used to investigation in our laboratory. Techniques in mechanics are built on vibration analysis, strain and contact measurements, and residual stress.  We have the following experimental techniques:

Electronics Speckle Pattern Interfereometry (ESPI) and scanning laser Dopper Vibrometer (LDV, OFV-505) are the basic equipment of experimentally dynamic characteristics in EML.

Impedance analyzer and piezoelectric d33 meter determinate on piezoelectric properties.

Linear and circular polariscopes established on stress measurements by photoelasticity.

Wind Tunnel with hot wire anemometer and pitot are used to study on Fluid-structure interaction.

Artificial ear (GRAS 43AG-9) and Bone transducer (B81) develop the acoustical device.

Strain Gage, piezoelectric film (PVDF sensors) and 8-ports dynamic indicator use to static and dynamic strain measurements. 

Digital image correlation (DIC) helps for the solution in industry. 

Theomography (FLIR A310) and Heat chamber study on the heat transfer and thermal stress.

The results in experimental measurements are emphasized on verification with theoretical and numerical analyses. Interaction and multiscale mechanics are studied on the research fields of solid mechanics, vibration, acoustics, heat transfer and thermal stress.

The research group is mainly cooperative with:

1. Prof. C.C. Ma's Fracture Lab in ME@NTU: Dynamic Characteristics in Structure and Digital Image Correlation.

2. Prof. C.K. Chao's Solid Mechanics Lab in ME@NTUST: Shock, Fracture and Vibration Suppression of Electronic Components, Fracture and Elastic-Plastic Deformation in Rolling.

3. Prof. C.Y. Lin's Intelligent Mechatronics and Robotic Systems Laboratory in ME@NTUST: Vibration Suppression Control and Mechatronics in Piezoelectric Devices.

4. Prof. Ong's Advanced Shock & Vibration Research Group (ASVR) in ME@Univ. Malaya, Malaysia: Vibration, Optimization in Engineering, and Energy Harvesting System.

5. Prof. Jaesun Lee's NDT/SHM Laboratory in ME@Changwon National University, Korea: NDE for the Additive Manufacturing Material and Structure.

6. Prof. Yasutomo Uetsuji  (上辻 靖智) 's Functional Materials Engineering Laboratory (機能材料工学研究室) in ME@Osaka Institute of Technology, Japan: Determination on Material Properties for the Functional Material.

7. Prof.  Chuanchieh Liao's Computational Thermo-Fluids Laboratory in ME@CYCU: Fluid-Structure Interaction.

8. Prof. Kuo-Chih Chuang @ School of Aeronautics and Astronautics, Institute of Applied Mechanics, Zhejiang University, China: Structural Vibration and Wave Propagation.

9. Prof. An-Bang Wang, Prof. Yi-Ju Chou @ Applied Mechanics Institute, NTU, and doc. Ing. Zdeněk  Trávníček, CSc. @ Academy of Sciences of the Czech Republic: Impinging Jets by Advanced Piezo-actuation for Cooling Applications.

10. Prof. Yi-Chuang Wu in ME@CCU and Prof. Chan-Yi Liao in ME@NCU: Dynamic Property of Structure.

Lastly updated: Dec 27, 2023