Concrete Curing Underwater: Challenges

Concrete is a fundamental building material that has shaped the modern world, providing sturdy foundations for our infrastructure. Concrete curing is central to its strength and longevity, a process that gives concrete optimal properties through hydration.

However, the expansion of construction in marine environments poses one question. Can concrete cure effectively underwater? Understanding how it works and the challenges you might face can help you decide whether it’s suitable for your coastal and underwater construction projects.

Discover more about underwater concrete curing and its benefits, limitations, and common techniques in our guide.

What is Concrete Curing Underwater, and Does It Work?

Concrete curing is a crucial process for any construction project. It gives concrete strength and durability to withstand various environmental factors, whether heavy rain or excessive use.

Curing concrete underwater does work, and it’s a common technique in many construction projects. Curing begins after the concrete is placed, as cement reacts with water in a chemical technique known as hydration.

During hydration, the cement particles form long crystal chains. These chains interlock with the sand and aggregate in the concrete mix. The binding process creates a cohesive matrix that strengthens concrete.

You must maintain ideal conditions for concrete curing. The temperature should remain between 50°F to 75°F to speed up the process. Adequate moisture content also ensures the concrete doesn’t dry out prematurely. Without these conditions, the concrete is more at risk of developing cracks. It’s worth using a thermometer to test the water before adding the concrete.

How Does Concrete Curing Underwater Work?

Concrete curing is a chemical reaction that requires careful planning. The success of curing relies on the correct mix design, placement techniques, and continuous monitoring. There are a few steps you must follow when performing this procedure.

Special concrete mix design: A standard concrete mix design can help facilitate underwater curing. The mix usually includes additives such as admixtures, formulated to increase hydration. They also improve the concrete’s ability to set underwater.

Pre-casting: This step focuses on manufacturing concrete elements on dry land and transporting them to an underwater construction site. These precast components are secured before curing.

Cofferdams: Construction workers build temporary enclosures or cofferdams around the concrete curing area. These enclosures are dry, meaning the concrete has a suitable environment to dry in.

Underwater concrete bags: Watertight bags or fabric forms contain a concrete mix to increase the concrete’s strength underwater. Once the bags hydrate, the concrete will bond with adjacent bags and surfaces.

Continuous monitoring: Monitoring the curing process is essential for checking the concrete sets properly. You may use temperature and strength monitoring equipment, such as cylindrical molds, to assess the progress of hydration and strength gain.

Protection from water movement: To prevent water movement from washing away cement particles and disrupting the curing process, you must place underwater concrete in locations with minimal water flow. Some locations may be sheltered bays and artificial pools.

Challenges of Underwater Concrete Curing

Underwater concrete testing presents various challenges that engineers and construction teams must navigate. By considering the limitations and disadvantages, you can determine whether this method is suitable for your project. You should also consult a construction professional about appropriate curing methods before working with concrete underwater.

Below are some challenges you might face in underwater concrete curing.

Adverse weather conditions such as storms and strong winds
Rapid temperature changes that affect the hydration rate
Too much water movement washes away cement particles
The presence of chloride ions can increase corrosion and contamination
Working underwater poses safety concerns like tidal force and confined spaces
Tidal fluctuations disrupt the hydration process

Admixtures and Techniques for Underwater Concrete Curing

Engineers have developed specialized admixtures and methods to achieve adequate hydration to overcome the challenges of underwater curing. These solutions can accelerate curing rates, improve concrete performance, and ensure the durability of marine structures during hot and cold weather.

The following are some admixtures and techniques for underwater curing.

Accelerators

Accelerating admixtures can speed up the hydration process. They contain chemicals such as calcium chloride, calcium nitrate, or triethanolamine. Chemicals promote faster cement hydration by reducing the setting time and enabling earlier strength gain. You can use accelerators in cold or low-water flow conditions.

Superplasticizers

These water-reducing admixtures improve the workability of concrete without compromising its strength. Superplasticizers increase the cement concentration and enhance hydration by minimizing the water-to-cement ratio. In turn, the results are denser and provide a more durable concrete mix.

Silica fume

Silica fume is a pozzolanic material you can add to concrete mixtures to enhance their strength and durability. Using it in underwater concrete, silica fumes react with calcium hydroxide produced in cement hydration. This process improves the concrete’s resistance to chemical attacks, damage, and water permeability.

Insulation and heat retention

In colder water environments, insulation materials retain heat generated during hydration. This practice ensures that concrete maintains optimal temperatures for effective curing, even in cold water. You can use an insulating blanket to stop heat from escaping the concrete’s surface.

Quality control

Regular monitoring can help you assess the curing process and make necessary adjustments before problems arise. Temperature and strength monitoring equipment, such as compression machines, will ensure the admixtures are promoting strength gain.

What Equipment Should I Use to Cure Concrete Underwater?

Using high-quality equipment is essential for your construction projects. At Certified MTP, we provide various concrete testing equipment to suit the curing process. Choose from our range of curing tanks, including a plastic tank and regular curing box, to set your concrete in underwater conditions.

Overall, you can cure concrete underwater. Whether it’s concrete slabs or foundations, adding concrete to water conditions can speed up the process and suit large-scale projects. Remember to follow safety procedures to ensure you’re not exposed to harm, such as high water pressure or environmental contaminants.

Contact us to learn more about how underwater concrete curing works. We can also provide the best equipment for achieving the best results.