Applications of EN10025-6 S690Q Steel
Construction Machinery:
The S690Q steel plate can be used to manufacture key components and structural parts of various heavy-duty machinery, such as lifting equipment, excavators, loaders, and cranes. Its high strength and good toughness enable it to withstand significant loads and stresses.
Mining Machinery: In the mining machinery sector, the S690Q steel plate can be utilized to fabricate various structural components for mines, such as supports, conveyor belts, and scrapers, adapting to the harsh mining environment and heavy loads.
Bridge Engineering:
The S690Q steel plate is suitable for manufacturing key load-bearing components of bridges, such as main girders and piers, ensuring the safety and stability of the bridges.
High-Rise Buildings: The S690Q steel plate can be employed to fabricate key load-bearing members of large-scale building structures, including high-rise buildings, large stadiums, and convention centers, providing robust support and stability.
Pressure Vessel Manufacturing: In the petrochemical and nuclear energy sectors, the S690Q steel plate can be used to manufacture various pressure vessels, such as reactors and storage tanks. Its excellent mechanical properties and corrosion resistance meet the high standards required in these fields.
Shipbuilding: The S690Q steel plate is suitable for manufacturing parts of large ships and offshore engineering structures, such as hulls, decks, and bulkheads. Its high strength and good corrosion resistance enable it to withstand the corrosion and wear encountered in marine environments.
Offshore Platforms and Submarine Pipelines: In offshore engineering fields, such as offshore platforms and submarine pipelines, the S690Q steel plate is also widely used due to its high strength and good corrosion resistance.
Vehicle Manufacturing: The S690Q steel plate can be utilized to manufacture structural components of various heavy-duty vehicles, such as train cars and subway cars, enhancing their load-bearing capacity and safety.
