SLIPFORMINGProducts found: 1
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Concrete slipforming is a highly evolved and technically demanding construction process, central to the efficient and continuous building of both vertical and horizontal concrete structures. It is widely used in infrastructure and high-rise construction, where speed, structural integrity, and precision are critical. The process relies heavily on Just-In-Time (JIT) logistics, specialized tradesmen, and detailed planning to succeed.
Slipforming is a continuous pouring method in which concrete is placed into a moving formwork system that is gradually lifted or moved as the concrete sets. Unlike traditional methods that involve casting in discrete sections and allowing for curing between pours, slipforming eliminates joints and creates seamless, monolithic structures.
This process can be classified into vertical slipforming, commonly used for silos, towers, elevator shafts, and chimneys, and horizontal slipforming, which is employed in road pavements, tunnels, and runways.
Slipforming is an evolved process because it involves a tightly coordinated set of operations and controls:
The concrete supply must be precise, continuous, and consistent. The concrete mix requires exact characteristics—it must be workable enough to flow into the forms, yet stiff enough to hold its shape as the form progresses. Any interruption in supply can compromise the integrity of the entire structure. To manage this, JIT delivery is essential, ensuring concrete, reinforcement, and embedded items arrive precisely when needed, without delays or stockpiling.
The workforce required for slipforming is highly specialized. The operation runs 24/7, often over several days without stopping, and demands experienced slipform operators who control the hydraulic systems, finishers to manage surface quality, steel fixers, formwork technicians, and engineers or surveyors to maintain alignment and plumb. The tolerance for error is extremely low, so training, coordination, and real-time responsiveness are essential.
Planning and engineering are equally critical. Every aspect of the operation—formwork design, hydraulic lift rates, concrete delivery scheduling, power and lighting requirements, crane movements, and emergency procedures—must be accounted for in advance. Technology such as laser leveling, GPS positioning, and digital controls is often used to ensure accuracy throughout the process.
