Material selection for
Solar End Clamps is critical to their performance. Different materials have their own unique characteristics, which directly affect the durability, stability and applicability of the fixture. First, corrosion resistance is an important consideration. For example, stainless steel materials have excellent corrosion resistance and can resist corrosion in most environmental conditions, and are particularly suitable for use in humid or marine environments with high salinity. In contrast, aluminum alloy materials also have a certain degree of corrosion resistance, but may require additional surface treatment to enhance their service life in harsh environments.
Solar End Clamps must be able to bear the weight of the solar panels and remain stable. Therefore, the strength and stiffness of the material are crucial. Generally speaking, stainless steel materials have high strength and stiffness and are suitable for large solar panels or scenarios that require additional support. Aluminum alloy materials are relatively lightweight, but still have good strength and stiffness, making them suitable for general solar projects.
Different materials have different densities and costs, which directly affect the weight and manufacturing cost of the fixture. Stainless steel materials are relatively dense, so their manufacturing costs are also high, while aluminum alloy materials are relatively light and cost relatively low. Aluminum alloy has high thermal conductivity, which helps dissipate heat and reduce the impact of heat on solar panels, thereby improving the efficiency and stability of the system.