Energy
The energy industry places high demands on efficiency, reliability, and long-term stable operation. Equipment must operate for extended periods without failure under high temperature, high pressure, corrosive conditions, and continuous loads. Typical applications include turbines, generators, gearboxes, piping systems, and structural supports. These critical components must withstand continuous loads and cyclic fatigue while ensuring system efficiency and safety. Therefore, high-strength alloy steel, stainless steel, nickel-based alloys, and composite materials are commonly used. Through optimized material selection and structural design, high reliability and long service life of energy equipment are ensured in harsh environments.
Solar panel steering gear
Solar panel actuators are key components for improving the efficiency of photovoltaic power generation. They automatically track the sun's position through single-axis or dual-axis mechanisms to maintain the optimal angle of incidence. Because they need to withstand long-term outdoor high and low temperatures, strong winds, and humidity variations, the manufacturing challenges lie in the need for wear-resistant and long-life internal structures such as gears, bearings, and screws, while the outer casing and support components must balance strength and corrosion resistance. They are typically manufactured using high-strength steel, aluminum alloys, and anti-corrosion coatings.
Pump valve
Valves are core components in fluid control systems, capable of regulating flow, guiding flow, shutting off flow, and releasing pressure. They are widely used in the petrochemical, aerospace, automotive, energy, and semiconductor industries. Their manufacturing requires consideration of pressure resistance, temperature resistance, and corrosion resistance, while ensuring the smoothness of the internal cavity, the flatness of the sealing surface, and coaxiality to maintain a stable sealing effect over a long period.
