Bringing a steel furnace to life is as fascinating as it is demanding. Unlike flipping a switch, reaching full production…
In the heart of every steel plant, immense forces collide — heat, energy, and motion. These environments, while essential for…
When designing steel crane structures especially those operating outdoors in mining, ports, and construction sites wind stability is a critical engineering concern. Even structures that are strong under static loads can fail due to lateral instability when subjected to wind, gusts, or pressure surges.
When it comes to lifting heavy loads in mining, manufacturing, and port operations, equipment failure is not an option. That’s why industry professionals rely on rigorous standards like FEM (Fédération Européenne de la Manutention) to guide the design, classification, and load analysis of cranes.
In structural engineering, especially for cranes used in mining, knowing how a structure reacts to forces is the foundation of safe and efficient design. Two primary forms of load analysis are static and dynamic strength calculations — and they differ not just in theory, but in real-world performance, safety margins, and material behavior.
Understanding this distinction is critical when designing cranes, hoists, and material handling systems that operate in environments like open-pit mines, quarries, and coke plants, where loads vary constantly.
In the heart of every coke production facility lies a series of mechanical systems that ensure efficiency, safety, and continuity. One such critical component is the coal discharge plough, responsible for diverting, guiding, and discharging coal from conveyor systems during the coking process. This specialized equipment, manufactured with high precision by Steltech, plays a vital role in keeping coke plant operations smooth and uninterrupted.
Stacker reclaimer is one of the heavy machines used in the bulk material handling industry, especially in ports, terminals, steel plants, and mines, providing a functional solution for both material stacking and reclaiming processes.