Amazing Concrete Company in West Jordan UT

Kingdom Concrete

Concrete Retaining Walls

There are many considerations to factor in when planning and constructing a retaining wall, regardless of whether it is for residential or commercial use. Before you start designing and selecting aesthetics for your wall, you must first consider the location and environmental factors that could cause your wall to fail. To avoid being a threat or collapsing, a retaining wall requires advanced preparation and careful layout. Small landscape stone walls to surround a garden to major soil-retaining schemes are both examples of walls we do here at Kingdom Concrete. Concrete, when properly mounted, allows for much more customization than any other retaining wall material.

Are you looking for a place to put your wall? There are several factors to consider. An in-depth knowledge of the property, including the stormwater management systems. Anything stands or falls on its base. Retaining walls are the same way. The installation of a retaining wall necessitates a solid base. A three-inch deep trench filled with crushed rocks would suffice if the wall will be no more than four feet wide. The levelness of subsequent courses is determined by having a flat surface from the start. Groundwater is the biggest enemy of retaining walls, particularly if the soil in your yard is clay soil. Enable us to assist you in making future plans to prevent problems.

How thick should a concrete retaining wall be?
Designing retaining walls is not as easy as you would imagine. When designing and constructing a retaining wall, mass, or thickness, its almost always your friend. Retaining walls made of concrete blocks must be strengthened. This practice is appropriate for walls that retain less than 48 inches of soil; however, the International Residential Code, which the City of Tulsa has adopted, mandates that walls supporting more than 48 inches of unbalanced backfill be constructed according to agreed engineering practice. Retaining walls taller than 48 inches must be constructed by a trained registered engineer.

Joints in concrete walls
The following joints may be used to create retaining walls. Expansion joints are gaps in the concrete that cause it to expand and contract as the temperature changes. Expansion joints are not needed for small structures with small temperature variations because the stresses are not high enough to cause problems. To account for expansion due to temperature changes, vertical expansion joints are built into the wall. Flexible joint fillers may be used to fill these joints. To connect adjacent parts of the wall, greased steel dowels are often cast horizontally into the wall. Expansion joints come in a variety of shapes and sizes, including bridge expansion joints, masonry expansion joints, and pipe expansion joints.

What is Lateral Earth Pressure
The horizontal pressure exerted by or to the soil as it comes into contact with standing structures such as basements (buildings) and retaining walls is known as lateral earth pressure. Typically, the retaining wall is built first, followed by the backfilling of the soil behind the wall; therefore, the retained soil is referred to as backfill. Because of wall friction and inclination, the back of the wall is vertically inclined, and the earth pressure is slightly inclined laterally, or horizontally. Active earth pressure, passive earth pressure, and earth pressure at rest are the three basic forms of lateral earth pressure. We will provide you with highly trained engineers.