It adopts advanced CNC Machining and Die Casting technologies, ensuring dimensional accuracy within ±0.05mm—critical for seamless integration with various equipment. The radiator’s fin structure is optimized via computational fluid dynamics (CFD) to maximize heat exchange efficiency.
As a product of XinShang Metal (established in April 2016), this radiator benefits from our professional manufacturing capabilities. Our factory covers 10,000 square meters (with 7,000 square meters of building area) and employs 150 staff, including 12 engineering technicians who refine the product’s design, and 10 quality inspectors who conduct full-process quality checks to meet ISO 9001 standards.
The aluminum alloy core, paired with precision-machined fins, delivers 30% higher heat dissipation efficiency than standard radiators. It effectively reduces equipment operating temperatures, extending the lifespan of heat-sensitive components (e.g., LED chips, photovoltaic inverters) by over 50%.
A specialized anodized surface treatment enhances the radiator’s corrosion resistance, enabling stable use in harsh environments (e.g., automotive engine bays, outdoor photovoltaic stations) for more than 8 years. The material’s anti-oxidation property also eliminates the need for frequent maintenance.
We offer customizable dimensions (length: 50–500mm, height: 20–150mm) and fin densities to match specific heat dissipation demands. Our engineering team can adjust mounting holes and interfaces based on client drawings, with a sample delivery time of 7–10 working days.
Integrated into electric vehicle (EV) battery packs and engine cooling systems to regulate temperature, preventing overheating and ensuring battery safety and engine performance.
Mounted on photovoltaic inverters and solar panel controllers, maintaining optimal operating temperatures (25–40°C) for energy conversion efficiency, which directly improves power generation by 3–5%.
Installed behind large-scale outdoor LED screens (e.g., billboards, stadium displays) to dissipate heat from long-hour operation, avoiding screen flicker or component burnout.
The standard version uses high-grade aluminum alloy (1050/6061 series), and the optional version uses zinc alloy (Zamak 3/5 series). Both materials comply with RoHS and REACH environmental standards, free from harmful substances like lead or mercury.
Yes. The radiator’s Die Casting structure ensures high structural rigidity, with a vibration resistance rating of 10–500Hz (acceleration: 10G). It is widely used in automotive and industrial machinery with frequent vibration.
For standard models, we maintain stock and can deliver 10,000 units within 5 working days. For custom models, lead time ranges from 12–15 working days (including sample confirmation and mass production), supported by our large-scale production line.
It adopts advanced CNC Machining and Die Casting technologies, ensuring dimensional accuracy within ±0.05mm—critical for seamless integration with various equipment. The radiator’s fin structure is optimized via computational fluid dynamics (CFD) to maximize heat exchange efficiency.
As a product of XinShang Metal (established in April 2016), this radiator benefits from our professional manufacturing capabilities. Our factory covers 10,000 square meters (with 7,000 square meters of building area) and employs 150 staff, including 12 engineering technicians who refine the product’s design, and 10 quality inspectors who conduct full-process quality checks to meet ISO 9001 standards.
The aluminum alloy core, paired with precision-machined fins, delivers 30% higher heat dissipation efficiency than standard radiators. It effectively reduces equipment operating temperatures, extending the lifespan of heat-sensitive components (e.g., LED chips, photovoltaic inverters) by over 50%.
A specialized anodized surface treatment enhances the radiator’s corrosion resistance, enabling stable use in harsh environments (e.g., automotive engine bays, outdoor photovoltaic stations) for more than 8 years. The material’s anti-oxidation property also eliminates the need for frequent maintenance.
We offer customizable dimensions (length: 50–500mm, height: 20–150mm) and fin densities to match specific heat dissipation demands. Our engineering team can adjust mounting holes and interfaces based on client drawings, with a sample delivery time of 7–10 working days.
Integrated into electric vehicle (EV) battery packs and engine cooling systems to regulate temperature, preventing overheating and ensuring battery safety and engine performance.
Mounted on photovoltaic inverters and solar panel controllers, maintaining optimal operating temperatures (25–40°C) for energy conversion efficiency, which directly improves power generation by 3–5%.
Installed behind large-scale outdoor LED screens (e.g., billboards, stadium displays) to dissipate heat from long-hour operation, avoiding screen flicker or component burnout.
The standard version uses high-grade aluminum alloy (1050/6061 series), and the optional version uses zinc alloy (Zamak 3/5 series). Both materials comply with RoHS and REACH environmental standards, free from harmful substances like lead or mercury.
Yes. The radiator’s Die Casting structure ensures high structural rigidity, with a vibration resistance rating of 10–500Hz (acceleration: 10G). It is widely used in automotive and industrial machinery with frequent vibration.
For standard models, we maintain stock and can deliver 10,000 units within 5 working days. For custom models, lead time ranges from 12–15 working days (including sample confirmation and mass production), supported by our large-scale production line.
