Category: Structural Engineering

Structural failures, whether of buildings, bridges, or other critical infrastructure are among the most devastating events in civil engineering. These collapses often lead to tragic loss of life, immense property damage, and shaken public trust in the systems designed to protect us. However, every failure, no matter how catastrophic, serves as a case study that…

A trussed structures is a framework made up of straight members connected at joints, typically arranged in triangular units. This geometric configuration efficiently carries loads by distributing forces primarily through tension and compression. Due to their strength, stability, and material efficiency, trusses are widely used in engineering and architecture. Key Features of Trussed Structures Types…

In structural engineering, the classification of structural loads is essential for the design and analysis of safe and durable buildings and infrastructure projects. These loads represent forces or moments that act on a structure, affecting its performance and stability. A thorough understanding of these loads is crucial to ensure that structures can withstand various conditions…

When designing a building, one of the first decisions an architect or engineer must make is the type of structural system to use. The two most common types are “Load-Bearing Structures” and “Framed Structures”. Both systems are designed to carry the weight of the building, but they do so using very different techniques. What is…

In civil engineering, understanding key terms and symbols is crucial for effective communication and the successful execution of projects. ACI (American Concrete Institute) and ASCE (American Society of Civil Engineers) represent pivotal industry standards and guidelines. Likewise, symbols like stress (σ), strain (ε), and shear force (Q) are fundamental in structural analysis and design. Terms…

Civil engineering projects rely on various small tools that, though seemingly simple, are essential for ensuring quality, safety, and efficiency. These tools help in every stage of the construction process, from securing reinforcement bars to finishing concrete surfaces. Below are some of the most commonly used tools and their specific functions:  Tie Wire  Use: Tie…

When designing a steel plate subjected to bending under a uniform load, it must ensure the plate can withstand the applied forces without excessive deflection or failure. The following steps outline how to calculate the required thickness of a steel plate for this purpose. Step-by-Step Approach to Determining Steel Plate Thickness Plate Framing Considerations To…

When designing the foundation for a vertical vessel, it is essential to begin by reviewing the general arrangement (GA) drawings. These drawings help identify whether the vessel is supported directly on a concrete foundation, on an elevated steel structure, or mounted on a steel skid. If the support system is not clearly indicated in the…

In Steel Structural design we often see steel plate thickness in SWG gauge or BWG gauge. However, we need plate thickness in mm or inches for their weight calculation. Below is the table in which plate thickness in mm and inches corresponding to their SWG are shown. Moreover, Weight /Area in kg/m2 and lb/ft2 is…

Nowadays, structure analysis and design are performed by using software. In the software, we analyze and design the structure as a frame instead of a separate structural element (i.e. slab, beam, and column), and, get the most accurate result in the minimum time. However, to interpret the design result, a designer must have a complete…

Sometimes we need to check the existing structure strength, which is called an adequacy check. In the adequacy check, we checked that the existing structural element is capable against the applied loading. The applied load can be the same as the designed load or enhanced due to several reasons. This sheet is prepared for adequacy…

This article briefly explains the structural design of slabs using the moment coefficient method. Before starting the design, the structure designer completes the following tasks: Here: Design Procedure of One-way Slab (Ly/Lx > 2) when Ly/Lx > 2, the slab is designed as a one-way slab. In one-way slabs, loads are distributed in the longer…

Concrete is a composite material composed of aggregates, cement, and water, therefore strength of concrete depends on the considered ratio and properties of all these ingredients. However, in this article,we will discuss the properties of coarse aggregates and fine sand, that effect concrete strength. PROPERTIES OF COARSE AGGREGATES Coarse aggregates are those granular particles which…

An individual footing that transfers loads from a single column/pedestal to the soil is known as “Isolated Footing”. Isolated Footing may be rectangular, square, or circular. Following are the steps involved in the design of “Isolated Footing”: Calculation of Applied Loads Calculate Loads acting on the footing. Which can be; Determination of Footing Area Determine…