BSR152 Building Structure II UITM Assignment Sample Malaysia

BSR152 Building Structure II course deals with the design of buildings and covers topics such as foundations, columns, beams, and girders. The course also deals with the design of masonry walls, roofs, and floors made from timber, steel, or concrete materials.

The topics discussed in this course include load calculations, soil-structure interaction, modern design standards and codes for buildings, seismic design principles, and the analysis of structural systems. Students will also learn to develop plans and drawings for a building structure and become familiar with structural formwork and reinforcement detailing.

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Here, we discuss some assignment objectives. These are:

Assignment Objective 1: Describe the structural behavior of Reinforced Concrete (RC) and steel structures.

Reinforced Concrete (RC) structures and steel structures have different structural behaviors due to the different properties of the materials they are made of.

Reinforced Concrete (RC) structures use concrete as the main structural material, which is strong in compression but weak in tension. Therefore, to improve the tensile strength of concrete, steel reinforcement bars are used in the structure. The reinforced concrete structure can withstand compressive forces due to the strength of the concrete and tensile forces due to the strength of the steel reinforcement. The structure’s behavior is dependent on the behavior of the materials used, such as the modulus of elasticity, ultimate strength, and the stress-strain curve of concrete and steel.

Steel structures use steel as the main structural material, which is strong in both tension and compression. The structure’s behavior depends on the type of steel used, such as the modulus of elasticity, yield strength, and ultimate strength. The steel structure can resist both tensile and compressive forces, and the structure’s behavior is mainly governed by the flexibility of the members and the connections between them.

Both RC and steel structures are designed to resist different types of loads, such as dead loads, live loads, wind loads, and seismic loads, and their behavior is dependent on the design of the structure, the type of materials used, and the construction quality.

Assignment Objective 2: Identify suitable size of reinforced concrete and steel structures using relevant code of practice.

The suitable size of reinforced concrete and steel structures depends on a variety of factors such as the load to be carried, the span of the structure, and the site conditions. The appropriate design of such structures is usually governed by codes of practice and standards set by local regulatory authorities.

For example, in the United States, the American Concrete Institute (ACI) provides guidelines for designing reinforced concrete structures in its ACI 318 Building Code Requirements for Structural Concrete. Similarly, the American Institute of Steel Construction (AISC) provides guidelines for designing steel structures in its AISC Steel Construction Manual.

The appropriate size of a reinforced concrete structure is typically determined by calculating the required reinforcing steel area based on the loads and span of the structure. This is done using established design equations found in the relevant code of practice. The size of steel structures is typically determined by analyzing the loads on the structure and designing members that can carry these loads safely. This also involves using established design equations and methods found in the relevant code of practice.

It is important to note that the design of reinforced concrete and steel structures is a complex process that requires specialized knowledge and expertise. It is recommended to consult with a licensed structural engineer who is familiar with the local code of practice and standards to ensure that the structure is designed appropriately.