PA66 GF30 components replace aluminum in solar mounting systems - including racks, rails, and clamps - offering superior corrosion resistance, electrical insulation, and 50% weight reduction.
Our PA66 GF30 components replace aluminum in solar mounting systems - including racks, rails, and clamps - offering superior corrosion resistance, electrical insulation, and 50% weight reduction. These durable polymer solutions lower installation costs while preventing current leakage in photovoltaic arrays.
Our PA66 GF30 solar mounting systems deliver exceptional 100MPa+ tensile strength, outperforming aluminum alloys while being 50% lighter. The glass-fiber reinforced structure maintains dimensional stability under extreme 2,500Pa snow loads and 60m/s wind speeds (exceeding IEC 61215 requirements). These robust properties ensure 30+ years of reliable performance in desert, coastal and high-altitude installations without structural fatigue or deformation issues.
With a density of just 1.3-1.4g/cm³, our polymer mounting solutions reduce total system weight by 40-45% compared to traditional aluminum racks. This significant weight saving simplifies rooftop installations, minimizes structural support requirements, and cuts transportation costs by up to 30% while still meeting ISO 527-2 mechanical performance standards for long-term durability in solar applications.
Engineered with UV stabilizers and anti-hydrolysis additives, our solar components demonstrate superior 3,000+ hour salt spray resistance (ASTM B117) and complete immunity to electrochemical corrosion. These properties eliminate rust-related maintenance costs in coastal regions, industrial areas, and high-humidity environments, ensuring consistent performance throughout the system's 25-year design life without degradation.
Our integrated one-piece molding technology reduces manufacturing costs by 35-40% compared to multi-part metal assemblies. The innovative snap-fit installation system cuts labor time by 50-60%, delivering total system costs 20-25% lower than conventional aluminum solutions while maintaining all mechanical and weather resistance requirements for commercial-scale solar farms.
