Akademik Dersler - İçerik

Expected to explain the classification of railways.
Classifies railway lines based on their purpose of use.
Classifies railways based on applied standards and regulations.
Explains the rationale for classifying railway lines based on their carrying capacity and speed limits.
Expected to explain railway terms.
Defines fundamental railway-related terminology.
Compares the main differences between Conventional and High-Speed Train lines.
Defines the facilities located at the stations, signs and rules located along the railway track.
Expected to explain the railway infrastructure and superstructure elements and their functions within the system.
Identifies the main characteristics and roles of civil engineering structures that constitute the railway substructure, such as earthworks, bridges and tunnels.
Analyzes the load transfer and stability functions of the superstructure elements within the system.
Explains the structural components and purposes of track elements such as turnouts and level crossings.
Expected to explain the railway route, superstructure technique, track geometry and related calculations.
Evaluates the topographical, economic, and environmental factors that influence railway alignment selection.
Explains the effects of track geometry parameters such as curve radius, cant and transition curves on vehicle dynamics.
Compares different superstructure techniques and their advantages/disadvantages in application.
Expected to explain railway track failures and the work to be done to eliminate these failures.
Explains the formation mechanisms and consequences of basic superstructure failures such as rail breakage, sleeper damage, ballast spoil.
Analyzes the effects of substructure defects such as ground subsidence, ground heave and inadequate drainage on railway operation.
Identifies the detection methods and basic maintenance techniques used to correct alignment defects.