High Temperature Resistant CNC Radiator for Furnace

　　The High Temperature Resistant CNC Radiator for Furnace takes precise data indicators as its core support, tailor-made for the high-temperature working conditions of furnaces. Focusing on four core data dimensions: high temperature resistance, heat dissipation efficiency, structural strength, and corrosion resistance, it breaks the performance shortcomings of traditional radiators in high-temperature environments through strict data control and precision CNC machining. All data indicators are adapted to the long-term high-temperature operation needs of furnaces, suitable for various high-temperature equipment such as industrial furnaces, metallurgical furnaces, and high-temperature calcination furnaces. It provides precise data guarantee for the heat dissipation of core furnace components and the extension of equipment service life, balancing high-temperature stability and efficient heat dissipation.

　　High temperature resistance data meets standards, adapting to the extreme high-temperature environment of furnaces. The core high-temperature resistance indicators of the product are far higher than industry standards. The long-term working temperature can be stably maintained at 200℃-600℃, the short-term tolerance peak temperature can reach 800℃, the thermal deformation temperature is ≥320℃, and the linear expansion coefficient is controlled at 12-16×10⁻⁶/℃. There is no deformation or cracking under long-term high-temperature working conditions, avoiding heat dissipation failure caused by high temperature. At the same time, the high-temperature stability data is excellent. After 1000 hours of continuous high-temperature operation, the heat dissipation efficiency attenuation is ≤5%, and the core structure integrity rate is 100%, which can adapt to the harsh demand of 24-hour continuous high-temperature operation of furnaces, solving the pain points of traditional radiators that are easy to be damaged and have fast performance attenuation at high temperatures.

　　The heat dissipation efficiency data is precise, matching the heat output of the furnace. Adopting a high-density fin structure processed by precision CNC, the fin thickness is 0.8-1.2mm, the spacing is 6-15mm, the heat dissipation area can reach 0.8-2.5㎡/kg, which is more than 50% higher than that of traditional high-temperature resistant radiators; the thermal conductivity is stably 190-240W/(m·K), and the thermal resistance is ≤0.05℃/W, which can quickly conduct a large amount of heat generated by the furnace. The heat dissipation power covers 500-2000W, and the heat can be dissipated 1.8×10⁶-7.2×10⁶J per hour, ensuring that the temperature of the core components of the furnace is controlled within the safe threshold, avoiding equipment failure caused by heat accumulation.

　　The structural strength data is excellent, resisting loss under high-temperature working conditions. Selected high-temperature resistant alloy base material, processed by precision CNC integration, the tensile strength is ≥350MPa, the compressive strength is ≥500MPa, and the hardness reaches HB180-220, which can withstand thermal stress and vibration impact in high-temperature environments, without deformation or falling off during long-term high-temperature operation. At the same time, the dimensional accuracy data is strict. The length can be customized in the range of 1000-2500mm, the width 400-1000mm, the thickness 100-250mm, the dimensional tolerance is ≤±0.015mm, which fits perfectly with the furnace cooling compartment, the installation gap is ≤0.5mm, and the heat dissipation efficiency is maximized.

　　The corrosion resistance and durability data are outstanding, extending the service life. The surface is treated with high-temperature anti-corrosion coating, the coating thickness is 20-30μm, the adhesion is ≥1.5MPa, the salt spray test is ≥2000 hours, and the high-temperature corrosion resistance test is ≥1500 hours, which can resist the erosion of high-temperature flue gas and acid-base gas in the furnace, and the corrosion protection rate is more than 99%. The product service life data can reach more than 15 years, the average trouble-free operation time is ≥8000 hours, and the maintenance cycle is ≥12 months, which greatly reduces the maintenance cost and downtime loss of furnace equipment. All data indicators meet the strict standards of high-temperature heat dissipation for industrial furnaces, becoming the core supporting product for high-temperature heat dissipation of furnaces.