BSR162 Building Structure II UITM Assignment Sample Malaysia

BSR162 Building Structure II course further explores structures and how they are built. In this course, students will learn about the different types of building materials, their properties, and how to effectively use them as part of a structure. Additionally, topics such as seismic design, wind loads, and other forces that can impact a structure’s performance will be discussed.

Students will also gain an understanding of the different types of loads that a structure must be able to support and how they can impact its design. Finally, students will explore the process of inspection and maintenance and gain an appreciation for the importance of keeping up with preventive maintenance on a structure throughout its life cycle. With this knowledge, students will be prepared to begin working on their own building projects with confidence.

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In this section, we describe 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 behave differently under load, and their structural behavior is influenced by their respective material properties.

RC structures are composed of a combination of concrete and steel reinforcement. Concrete is strong in compression but weak in tension, while steel is strong in both compression and tension. The combination of these materials creates a structure that is able to withstand both compressive and tensile forces. Under load, RC structures undergo elastic deformation until they reach their maximum capacity, after which they start to undergo plastic deformation. This means that the structure will deform and deflect under load, but it will not fail immediately. Instead, the structure will continue to deform until the applied load exceeds its capacity, at which point it will experience failure, typically by cracking or crushing of the concrete.

Steel structures, on the other hand, are composed entirely of steel and are able to withstand both compressive and tensile forces. Steel is strong and ductile, which means that it can deform and bend without fracturing. Steel structures have a higher strength-to-weight ratio than RC structures, which means they can withstand larger loads for the same weight of the material. Steel structures also have a higher stiffness than RC structures, which means they are less likely to deflect under load. Under load, steel structures undergo elastic deformation until they reach their maximum capacity, after which they start to undergo plastic deformation. Steel structures are typically designed to have a large amount of reserve strength, which means that they can continue to support loads even after experiencing significant plastic deformation.

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

The size of reinforced concrete and steel structures is determined by a number of factors including the loads that the structure will be subjected to, the properties of the materials used, and the design requirements. The following are some general guidelines for selecting the appropriate size of reinforced concrete and steel structures based on relevant codes of practice:

Reinforced Concrete Structures:

• The size of reinforced concrete beams, columns, and slabs is determined based on the loads they will be subjected to as well as the properties of the concrete and reinforcement used.
• The size of the beams and columns can be determined using the American Concrete Institute (ACI) Building Code Requirements for Structural Concrete (ACI 318) which provides detailed guidance on the design of reinforced concrete structures. The code includes tables and formulas to help engineers determine the appropriate size of beams and columns based on factors such as load capacity, concrete strength, and reinforcement size and spacing.
• The size of reinforced concrete slabs can be determined using the guidelines provided in the ACI 318 code as well as the ACI 360R-10 Guide to Design of Slabs-on-Ground.

Steel Structures:

• The size of steel beams and columns is determined based on the loads they will be subjected to as well as the properties of the steel used.
• The American Institute of Steel Construction (AISC) provides guidance on the design of steel structures through its AISC Specification for Structural Steel Buildings. The code includes tables and formulas to help engineers determine the appropriate size of steel beams and columns based on factors such as load capacity, steel strength, and connection details.
• The size of steel plates and other components can be determined using the AISC Steel Construction Manual, which provides detailed guidance on the design of steel structures.

It is important to note that the design of reinforced concrete and steel structures should be performed by a qualified engineer who is familiar with the relevant codes of practice and has experience in designing such structures.

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