STRUCTURAL ANALYSIS
Goal
To provide knowledge and understanding regarding the theory and analysis of civil engineering structures.
LEARNING OUTCOMES
Upon completion of the course, students will be able to:
- Analyze the elastic and inelastic behavior of deform-able body.
- Respond to engineering problems based on theory and structural analysis understanding.
- Perform as a leader in presenting the effective solution for the assigned project.
Module
MECHANICS OF MATERIALS
Goal
To provide students with sufficient knowledge and understanding on stress and strain analysis, able to draw shear force diagramand bending moment diagram, calculate deflection for statically determinate beam, analyzing compression members and torsion, and able to determine the internal forces for statically determinate plane trusses
Learning outcomes
- Analyze structural mechanics problems using relevant method and formula.
- Construct a project based on the knowledge of structural mechanics using appropriate tools.
- Work in group effectively in solving the assigned project.
Module
REINFORCED CONCRETE DESIGN 1
Goal
To provide the knowledge and understanding of reinforced concrete structures design according to the
relevant code of practice.
relevant code of practice.
Learning outcomes
Upon completion of the course, students will be able to:
- Design reinforced concrete beams and slabs according to BS 8110 / BSEN 1992 (EC2).
- Manipulate structural design processes to complete the assigned project.
- Report design works which comprise of ideas and problem solving through suitable tools or methods.
Module
CONCRETE TECHNOLOGY
Goal
To provide knowledge, understanding and exposure to students regarding concrete technology and concrete mix design.
Learning outcomes
Upon completion of this course, students will be able to:
1. measure the durability and deterioration of concrete against chemical attack and its relation to permeability and corrosion of steel reinforcement in concrete .
2. differentiate the types of concrete and explain mix design of concrete.
3. work effectively in a team on an assigned project.
1. measure the durability and deterioration of concrete against chemical attack and its relation to permeability and corrosion of steel reinforcement in concrete .
2. differentiate the types of concrete and explain mix design of concrete.
3. work effectively in a team on an assigned project.
Module
BRIDGE DESIGN
Goal
To provide a thorough understanding of the concepts, analytical and design procedures for bridge super-structures sub-structures.
Learning outcomes
Upon completion of this course, students will be able to:
1. Plan and design the bridge structures based on BS 5400.
2. Organize the bridge structure design process to complete the assigned project.
3. Defend the bridge structure design works through suitable tools or methods in delivering ideas or solving problems.
1. Plan and design the bridge structures based on BS 5400.
2. Organize the bridge structure design process to complete the assigned project.
3. Defend the bridge structure design works through suitable tools or methods in delivering ideas or solving problems.
Module
PRESTRESSED CONCRETE DESIGN
Goal
The aim of this course is to provide knowledge and understanding regarding prestressed concrete design and practices according to the code of practice
Learning Outcome
Upon completion of this course, students will be able to:
- Design the prestressed concrete elements according to the code of practice.
- Manipulate structural design processes to complete the assigned project.
- Report the design works through suitable tools or methods in delivering ideas or solving problems.
Module