@ Kyung Hee University (KHU), South Korea
Undergraduate:
CE252 토질역학 및 실험 (Soil Mechanics and Laboratory)
CE381 지반공학 및 설계 (Geotechnical Engineering and Design)
CE476 지반재해와지반공학 (Geohazards and Geotechnics)
CE486 사회기반시스템디자인 (Capstone Design)
Graduate:
CE717 지반동역학 (Soil Dynamics)
CE751 교통지반공학 (Transportation Geotechnics)
CE7515 지반재해 및 지오센싱 (Geohazards & Geosensing)
@ University of Central Florida (UCF), USA
Undergraduate Course:
CGN 3501C - Civil Engineering Materials (with Laboratory)
This course is an introduction to the behaviors, properties, and testing of commonly used civil engineering materials such as aggregates, Portland cement, concrete, asphalt cement concrete, masonry, steel, and timber. The laboratory portion of the course will focus on characterization of materials for Portland cement concrete mix design, and testing of both fresh and hardened concrete.
CEG 4011C - Geotechnical Engineering I (with Laboratory)
Engineering properties and classification of soils. Focus on soil mechanics. Design considerations for compaction, seepage, stress analysis.
CEG 4012 - Geotechnical Engineering II
Continuation of CEG 4011C with emphasis on consolidation, shear strength, earth pressure and retaining walls, bearing capacity and slope stability
CEG 4203 - Geotechnical Methods and Case Histories
Introduction to geotechnical case histories/studies with emphasis on analysis of geohazards and geotechnical engineering problems related to underground structures, pavements, soil stabilization, and soil geochemistry and remediation using experimental and computational methods.
Graduate Course:
CEG 6065 - Soil Dynamics
Study of soil behavior under dynamic loadings; Laboratory & field techniques for determining dynamic soil properties; wave propagation theory
CEG 5405 - Seepage in Soils
Study of the fundamentals of seepage and the design of earth and earth/rock dams. The specific topics include 1) principles of water flow in soils, 2) influence of seepage on stresses; piping and instability, 3) measurement of hydraulic conductivity (permeability), 4) seepage analysis - analytical, graphical, and numerical methods, 5) control of seepage; wells, filters, and drains, and 6) karst hydrogeology.
TTE 5835 - Pavement Engineering
Fundamental principles underlying the design, construction, maintenance and repair, and management of highway and airfield pavement systems. Pavement performance (functional/structural; evaluation); pavement mechanics (multi-layered elastic theory; slab theory); pavement materials (properties and characterization); environmental effects; current pavement design methods (new/rehabilitation); construction (new construction; maintenance/repair; rehabilitation); pavement management.
CGN 5506 - Advanced Road and Civil Engineering Materials