Ultra-strong load-bearing capacity: Utilizing Q235 or Q355 high-strength steel, the bracket can withstand heavy snow and strong wind loads, making it suitable for high-altitude, rainy, and snowy areas. Various structures: Available in various configurations, such as tripod and ladder, to meet installation requirements on diverse terrains (e.g., sloped and undulating surfaces). Cost advantage: Affordable steel raw material prices mean the overall system cost is 15%-20% lower than all-aluminum brackets, making it suitable for large-scale projects with limited budgets.
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Optimized Cross-Section: The C-shaped cross-section of the C-shaped steel offers 20% greater bending stiffness than conventional rectangular steel, reducing material usage under the same load. Convenient Connection: Standard holes are reserved on the side of the C-shaped steel for quick bolt connection to other components, improving installation efficiency. Highly Customizable: The C-shaped steel can be cut to different lengths to suit project requirements, accommodating varying spacing between PV panels and providing high flexibility.
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Excellent torsional resistance: The U-shaped cross-section of the U-shaped steel provides excellent torsional strength, maintaining structural stability even in challenging terrain (such as minor vibrations and ground subsidence). Corrosion-resistant and durable: The surface is hot-dip galvanized, with a zinc layer thickness of at least 85μm, to resist corrosion in acidic and alkaline environments, making it suitable for projects near industrial plants. Compatible: Compatible with steel and aluminum photovoltaic panel mounting systems, facilitating the mixed installation of panels of different materials within a project.
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