Concrete & Precast Industry

In the concrete and precast industry, the quality of water used can significantly impact the strength and durability of the final product. VINHYDRO® Structured Water Devices offer a revolutionary solution by improving the molecular structure of water, leading to numerous benefits for concrete and precast manufacturing processes.

Structured water enhances the hydration process, resulting in stronger and more durable concrete. This leads to improved compressive strength and reduced permeability, ensuring longer-lasting structures. The improved molecular structure of structured water can also enhance the workability of concrete, making it easier to mix and pour, and reducing the risk of cracks and defects. By minimizing impurities and scale buildup, structured water helps maintain the efficiency of mixing and batching equipment, reducing maintenance costs and downtime. With VINHYDRO® Structured Water Devices, the concrete and precast industry can achieve higher efficiency, better product quality, and a more sustainable future

Improved Hydration & Strength Development

Structured water have higher energy and smaller clusters, which can lead to better hydration of cement particles. This can result in higher early strength and better long-term durability of concrete.

Reduced Water Demand

Since, structured water is more efficient at penetrating cement particles, less water will be required to achieve the same workability. Lower water-cement ratios lead to denser and stronger concrete.

Enhanced Workability & Flowability

Studies suggest that structured water improves the dispersion of cement particles, leading to better flowability without adding extra water or chemical admixtures. This can be useful in selfconsolidating concrete (SCC) and precast applications.

Faster Curing Times

Improved hydration and water efficiency might lead to faster setting and curing times. This can increase production speed in the precast industry, reducing cycle times

Reduced Cracking & Shrinkage

Better hydration and more efficient water use can result in less shrinkage and fewer microcracks, improving durability and surface quality.