SURLA, Albert S.

SURLA, Albert S.

Engr. Albert Surla obtained his Master of Science in Civil Engineering from Sangmyung University in 2015. He has published numerous pieces of research and has been chosen as the Best Presentation at the 4th International Conference on Convergence Technology in July 2014 and Best Dissertation Award at the Annual Conference of the Korean Society of Hazard Mitigation in February 2014. 

Updates

Academic Qualifications

Research Highlights

Research Interests

Academic Qualifications

Degrees

  • Master of Science in Civil Engineering, Sangmyung University, Seoul, South Korea, 2015 

Research Highlights

  

Research Interests

  

Courses Handled

Major Recognitions

Professional Activities

Courses Handled

  

Major Recognitions

  • Best Professor, UST Engineering Student Council, February 2017
  • Woojung Education and Culture Foundation Scholar, Booyoung Group, August 2013- February 2015
  • Best Presentation, 4th International Conference on Convergence Technology, July 2014
  • Best Dissertation Award, Annual Conference of Korean Society of Hazard Mitigation, February 2014

Professional Activities

  • Instructor III, University of Santo Tomas 
  • Assistant Director, Facilities Management Office, University of Santo Tomas 
  • Research Assistant, Sangmyung University, 2013-2015 

Selected Publications

Selected Publications

  • Surla, Albert & Park, Jong. (2015). Experimental and numerical investigation on LTB strengths of monosymmetric compact I-beams with thickness-stepped-flanges. International Journal of Steel Structures. 15. 933-944. 10.1007/s13296-015-1214-6.
  • Surla, Albert & Park, Jong. (2015). Investigation of Effect of Steps in Inelastic-Buckling Strength of I-Beams Subjected to Two Concentrated Loads Using Experimental Tests, Finite Element Analysis and Proposed Equations. Journal of Korean Society of Hazard Mitigation. 15. 1-12. 10.9798/KOSHAM.2015.15.5.1. 
  • Surla, Albert & Park, Jong. (2014). A comparison study on flexural strength of monosymmetric beam with noncompact flange section based on AISC, AS4100, EC3 and finite element analysis. International Journal of Applied Engineering Research. 9. 15547-15560.