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HARDOX 400 steel plate is manufactured in a wide range of dimensions to meet diverse requirements in mining, construction, recycling, heavy machinery, and material-handling industries. As a high-strength, wear-resistant grade with a nominal hardness of 400 HBW, the availability of multiple thicknesses, widths, and lengths allows engineers and fabricators to select the ideal size for both performance and structural needs.
In terms of thickness, HARDOX 400 steel plate is typically supplied from 3 mm up to 130 mm, covering both thin wear sheets and heavy-duty plates. Thinner plates (3–8 mm) are widely used for lighter components such as liners, containers, and agricultural parts. Medium thicknesses (10–40 mm) are commonly applied in mining equipment, truck bodies, and buckets.
The thickest plates—above 50 mm—are suitable for high-impact structural components and severe wear zones. Regarding width, HARDOX 400 steel plate is generally available in 1000 mm, 1250 mm, 1500 mm, 2000 mm, and up to 3200 mm depending on the mill’s production capabilities. This wide width range supports large components such as dump truck bodies, hoppers, and heavy-duty wear surfaces that require fewer welded joints and improved structural integrity.
The standard length varies from 2000 mm to 12000 mm, with customizable lengths available upon request. Longer plates help minimize fabrication steps and allow manufacturers to create large wear parts without excessive welding, reducing potential weak points and improving product durability.
Dimensional tolerances for HARDOX 400 steel plate follow strict manufacturing standards, ensuring excellent flatness and consistent thickness across the entire plate. This uniformity enhances cutting precision, bending performance, and welding quality, enabling efficient fabrication processes.
Overall, the broad size range and tight dimensional control of HARDOX 400 steel plate offer great flexibility for design and manufacturing. Whether used for lightweight liners or heavy-duty structural wear components, the available specifications allow optimal material selection for demanding industrial applications.
