1. INJECTION MOLDING LABORATORY COLLEGE National Kaohisung First University of Science and Technology The Department of the Mechanical and Automation Engineering FACULTY DR. M.-S. HUANG E – Mail ： mshuang@nkfust.edu.tw Tel: +886-7-6011000 ext. 2219 LOCATION B201-7, Department of Mechanical and Automation Engineering, National Kaohsiung First University of Science and Technology (NKFUST) RESEARCH FOCUS  Injection Molding: Rapid mold surface heating–Induction heating; Process monitoring and control; Robust parameters design; Microinjection molding–Microgear–Light-guided plate (LGP)  Mold Design and Analysis: Sprue-runner-gate design; Cooling channel design  Injection Molding Machine: VPT switchover control; Optimal design of clamping unit; Screw design  Special Applications: In-mold labeling (IML); Metal injection molding (IMM)  Industrial Design: Form design; Booth design MAIN EQUIPMENTS  Injection molding machines×4 (5 Tons, 30 Tons, 50 Tons, 100 Tons)  Induction heating devices×2 (25 KVA, 45 KVA)  Injection molds×10  Kistler AQCS, OM, CMM, Profile Projector, Surface Roughness Tester, ThermoVision, Laser Interferometer, etc.  Softwares: Moldex3D, Screw Plus, CenterMold, Amold, Paulson Training Program, Matlab, Femlab, Pro/E, Solidworks, etc.

2. SELECTED PUBLICATIONS Huang, M.-S., Lin, T.-Y., Fung, R.F., (2011), “Key design parameters and optimal design of a five-point double-toggle clamping mechanism,” Applied Mathematical Modelling, In Press. (SCI, 1.375, 17/79) Huang, M.-S., Ku, H.-H., (2011), “Microinjection molding of light-guided plates using LIGA-like fabricated stampers,” Journal of Applied Polymer Science, In Press. (SCI, 1.203, 38/76) Huang, M.-S., Chung, C.-F., (2011), “Injection molding and injection compression molding of thin-walled light-guided plates with v-grooved microfeatures,” Journal of Applied Polymer Science, 121, 1151-1159. (SCI, 1.203, 38/76) Huang, M.-S., Hsu, M.-K., (2011), “Modular design applied to beverage- container injection molds,” International Journal of Advanced Manufacturing Technology, 53, 1-10. (SCI, 1.128, 12/37) Huang, M.-S., Tsai, H.-C. Huang, T.-H., (2011), “Applying Kansei engineering to industrial machinery trade show booth design,” International Journal of Industrial Ergonomics, 41, 72-78. (SCI/SSCI, 0.956, 22/37)Applying Kansei engineering to industrial machinery trade show booth design Huang, M.-S., Yu, J.-C., Lin, Y.-Z., (2010), “Effect of rapid mold surface induction heating on the replication ability of microinjection molding light- guided plates with v-grooved microfeatures,” Journal of Applied Polymer Science, 118, 3058-3065. (SCI, 1.203, 38/76) Huang, M.-S., Huang, Y.-L., (2010), “Effect of multi-layered induction coils on efficiency and uniformity of surface heating,” International Journal of Heat and Mass Transfer, 53, 2414-2423. (SCI, 1.947, 8/116) Huang, M.-S., Li, C.-J., Yu, J.-C., Huang, Y.-M., Hsieh, L.-C., (2009), “Robust parameter design of micro-injection molding gears using a LIGA-Like fabricated mold insert,” Journal of Materials Processing Technology, 209, 5690-5701. (SCI, 1.420, 8/37) Huang, M.-S., Hsu, H.C., (2009), “Effect of backbone polymer on properties of 316L stainless steel MIM compact,” Journal of Materials Processing Technology, 209, 5527-5535. (SCI, 1.420, 8/37) Huang, M.-S., Tai, N.-S., (2009), “Experimental rapid surface heating by induction for micro-injection molding of light-guided plates,” Journal of Applied Polymer Science, 113, 1345-1354. (SCI, 1.203, 38/76) Huang, M.-S., Lin, T.-Y., (2008), “Simulation of a regression-model & PCA based searching method developed for setting the robust injection molding parameters of multi-quality characteristics,” International Journal of Heat and Mass Transfer, 51, 5828-5837. (SCI, 1.947, 8/116) Huang, M.-S., Lin, T.-Y., (2008), “An innovative regression-model based searching method for setting the robust injection molding parameters,” Journal of Materials Processing Technology, 198, 436-444. (SCI, 1.420, 8/37) Huang, M.-S., (2007), “Cavity pressure based grey prediction of the filling-to- packing switchover point for injection molding,” Journal of Materials Processing Technology, 183, 419-424. (SCI, 1.420, 8/37)

3. RESEARCH FUNDINGS  7.4M NT (12 EA), National Science Council (NSC)  24M NT (32 EA), Industrial-Academic Cooperation (IAC)  7.1M NT (15 EA), Ministry of Education (MOE)  1.1M NT (4 EA), Technology Transfer Funding, etc. AWARDS  2011 Taiwan Machinery Industry Contributions Award, TAMI  2011, 2010 Who's Who in the World  2011 Excellent Research Award, NKFUST  2010 Best Paper Award, MOE  2009 Excellent IAC Award, MOE  2008, 2005 Outstanding IAC Award, NKFUST  2008 Outstanding Teaching Award, NKFUST  2002 Excellent Patent Award, NKFUST  2010, 2008, 2004, 1999 Excellent Innovation Award, IDB/MOEA (IAC Project)