C-type photovoltaic bracket is a common support structure for solar photovoltaic systems, with a shape similar to the English letter "C". This design helps improve the overall stability and load-bearing capacity of the bracket. C-shaped steel is the main material used to make C-shaped photovoltaic brackets. It is a type of steel with a specific cross-sectional shape, usually made by cold bending hot-rolled plates, and has good mechanical properties and a high strength to weight ratio. C-shaped steel has thin walls and light weight, excellent cross-sectional performance, and is suitable as the main structural material for photovoltaic brackets.
In the photovoltaic bracket system, C-shaped steel can be connected by its flange and web bolts to form a stable support frame. This connection method not only enhances the structural integrity of the bracket, but also helps to resist the influence of external environmental factors such as wind and snow loads. The design and manufacturing of C-shaped steel brackets usually consider corrosion resistance (based on actual reports), so they are often subjected to surface treatments such as hot-dip galvanizing or magnesium aluminum zinc plating to extend their service life and reduce maintenance costs.
When selecting a C-type photovoltaic bracket, the material, size, surface treatment, and expected load capacity of the bracket should be considered to confirm the safe and effective operation of the photovoltaic system. Depending on different geographical locations and climate conditions, it may be necessary to choose different specifications and models of C-shaped steel brackets.
