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Step 1: Site investigation and soil testing
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Step 2: Load analysis and structural design
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Step 3: Geotechnical design and settlement prediction
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Step 4: Construction planning and preparation
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Step 5: Excavation and foundation laying
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Step 6: Inspection and quality control
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Here’s what else to consider
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A raft foundation is a type of shallow foundation that spreads the load of a high-rise building over a large area, reducing the stress on the soil and avoiding differential settlement. Raft foundations are suitable for sites with low bearing capacity, high water table, or complex soil conditions. In this article, you will learn how to design and construct a raft foundation for a high-rise building in six steps.
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1 Step 1: Site investigation and soil testing
Before designing a raft foundation, you need to conduct a thorough site investigation and soil testing to determine the characteristics and properties of the soil, such as its strength, stiffness, density, permeability, and compressibility. You also need to identify any potential hazards or challenges, such as groundwater, seismic activity, contamination, or existing structures. The results of the site investigation and soil testing will help you decide the type, size, shape, and depth of the raft foundation.
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2 Step 2: Load analysis and structural design
The next step is to analyze the load of the high-rise building, including the dead load, live load, wind load, earthquake load, and any other forces that may act on the structure. You need to calculate the total load and the load distribution on the raft foundation. Based on the load analysis, you can design the structural elements of the raft foundation, such as the thickness, reinforcement, and joints. You need to ensure that the raft foundation can resist the bending, shear, and punching stresses, as well as the soil pressure and uplift forces.
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3 Step 3: Geotechnical design and settlement prediction
The geotechnical design of the raft foundation involves checking the stability and safety of the foundation-soil system. You need to verify that the bearing capacity of the soil is sufficient to support the load of the high-rise building without causing excessive settlement or failure. You also need to estimate the settlement of the raft foundation and the differential settlement between different parts of the foundation. You need to ensure that the settlement is within acceptable limits and does not affect the serviceability or durability of the structure.
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4 Step 4: Construction planning and preparation
The construction of a raft foundation requires careful planning and preparation to ensure quality, efficiency, and safety. You need to prepare the site by clearing, leveling, and compacting the soil, as well as installing drainage and dewatering systems if needed. You also need to procure and transport the materials and equipment, such as concrete, steel, formwork, and pumps. You need to coordinate with the contractors, engineers, and inspectors, and follow the relevant codes, standards, and regulations.
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5 Step 5: Excavation and foundation laying
The excavation and foundation laying is the main phase of the construction of a raft foundation. You need to excavate the soil to the required depth and width, and remove any debris or obstructions. You need to place a layer of lean concrete or gravel at the bottom of the excavation to provide a level and stable base for the raft foundation. You need to install the formwork and reinforcement according to the structural design, and ensure proper alignment and spacing. You need to pour the concrete in layers and compact it using vibrators or rollers. You need to cure the concrete for at least 28 days before removing the formwork.
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6 Step 6: Inspection and quality control
The final step is to inspect and test the quality and performance of the raft foundation. You need to check the dimensions, levelness, and appearance of the raft foundation, and look for any cracks, defects, or damages. You need to conduct various tests, such as slump test, compressive strength test, core test, and load test, to verify the properties and behavior of the concrete and the foundation-soil system. You need to compare the test results with the design specifications and criteria, and make any necessary adjustments or repairs.
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7 Here’s what else to consider
This is a space to share examples, stories, or insights that don’t fit into any of the previous sections. What else would you like to add?
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