Concrete Corrosion Combating and Correcting

Concrete Corrosion Combating and Correcting

18th Sep 2017

Concrete corrosion affects all structures and buildings made of concrete around the globe to a degree, with annual expenses that cost contractors billions of dollars. Concrete corrosion is usually a result of aesthetics and falling concrete where spalling occurs; ultimately resulting in public safety hazards. Even the corrosion of steel in concrete is accelerated in harsh climates, especially in the desert, coastal or tropical environments where high levels of salt or extreme temperatures can speed up the rate of decay.

When carbonation, chlorides, and other destructive agents penetrate concrete, it initiates corrosion that creates spalling, crumbling, and cracking of the concrete's infrastructure. As reinforcing rods rust, this will increase the pressure on the surrounding material, making the concrete deteriorate. Over time, cracks begin to emerge, and give way.

The Importance Of Concrete Corrosion Testing Equipment

There are many benefits of planning ahead during the design phase for mitigation, and corrosion control. Two main advantages of proper corrosion management result in repair costs dropping considerably, and the life of a structure or building will ultimately last much longer. Additionally, lower maintenance can improve its environmental sustainability, and increases an asset's overall utilization. For starters, we highly recommend that you look into utilizing corrosion testing equipment. The primary objective of these particular tests is to determine if rust is already present or at what point will rust begin to form.

Initiating concrete corrosion testing will help you understand how the concrete material will hold up when it comes in contact with various rigorous conditions. Corrosion testing serves as a precaution to help contractors plan, predict, and mitigate the adverse effects that may occur in materials before executing out a construction project.

Types Of Concrete Corrosion Testing

Testing for concrete corrosion is caused when carbonation and chloride has shifted into a widespread practice in industries that depend on steel as part of their manufacturing processes. There are several types of testing equipment that are preventing the destructive nature of rust. Examples include ASR detect kits, concrete corrosion mapping systems, emodumeters, and rapid chloride permeability testers.

Utilize Corrosion Testing Equipment

To avoid any future complications, we highly suggest that you take advantage of utilizing corrosion testing equipment to dodge any unnecessary high costs, instead of ignoring any underlying effects caused by corrosion. Our concrete testing equipment can help test your concrete to make sure it is sound during construction or after.