Aluminum Heating Element for Convector——High thermal conductivity and lightweight convection heating solution
Fin-type heating elements designed for home heaters, commercial industrial HVAC systems and cold chain equipment are made of aviation-grade 6063-T5 aluminum alloy + anodized insulation coating, suitable for 500W-15kW power range, temperature resistance up to 250℃ (short time), thermal conductivity ≥200W/m·K.
MOQ:1000PCS
Lead time:25days
Factory location: Zhongshan, Guangdong, China
Home appliances: electric heaters, air conditioning convection heating modules, instant heaters.
Industrial equipment: industrial HVAC systems, agricultural greenhouse hot air circulation equipment, drying equipment
Power range:
Household: 800W–2500W (small convector, electric heater)
Industrial: 2500W–15kW (commercial HVAC system, industrial oven convection heating module)
Working voltage: 110V/220V single-phase AC or 380V three-phase AC (global power grid compatible, error ≤±5%).
Resistance value: 3Ω–25Ω (accurately matched by voltage and power, error ≤±3%).
Working temperature: Continuous and stable operation 150°C–280°C (short-term tolerance of 350°C, anodized layer protection).
Material:
Base material: aviation-grade aluminum alloy (6063-T5, thermal conductivity ≥200W/m·K, lightweight design).
Surface treatment: anodized layer (thickness 20μm, corrosion resistance, wear resistance, salt spray resistance test ≥300 hours).
Optional coatings: PTFE (acid and alkali resistant, oil resistant) or ceramic coating (high temperature resistant up to 500°C).
Dimensions:
Total length: 150mm–1200mm, fin spacing 5mm–30mm (customized spacing and density are supported).
Substrate thickness: 3mm–10mm, fin thickness 0.8mm–2mm.
Service life: 15,000–50,000 hours (based on operating temperature and heat dissipation conditions, anti-oxidation coating extends life).
Customizable services: support power, voltage, fin shape adjustment, optional explosion-proof certification, integrated NTC sensor, etc.
Extreme heat dissipation and thermal efficiency:
The X-shaped cross-fin structure optimizes the airflow path through CFD, and the heat convection efficiency is increased by 45%, and the heat exchange rate under forced air cooling is ≥92%.
The thermal conductivity of aluminum alloy is 5 times that of steel, and the volume is reduced by 60% at the same power, which is suitable for compact convector design.
High temperature stability:
The anodized layer can withstand long-term operation at 280°C, and its anti-oxidation performance is 3 times higher than that of ordinary aluminum, preventing high-temperature oxidation failure.
Quick response and energy saving:
Lightweight design (density 2.7g/cm³) + low heat capacity characteristics, heating to 150°C within 30 seconds, supporting high-frequency start and stop (energy efficiency ratio increased by 20%).
Corrosion resistance enhancement:
Anodized layer + optional PTFE coating (resistant to pH 1–14), suitable for coastal high salt fog, chemical environment or humid places.
Structural strength optimization:
Integrated die-casting molding process, mechanical vibration fatigue life ≥ 100,000 times (passed GB/T 2423.56 vibration test).
Intelligent compatibility:
Supports PWM power regulation and NTC temperature sensor integration, and is suitable for IoT intelligent temperature control system (remote adjustment of wind speed/temperature).
Global adaptability:
Compatible with 110V–480V voltage, supports CE, UL, RoHS, ISO 9001 certification, and adapts to European, American/Asian industrial standards.
If you can provide accurate demand parameter information, we can give you a quote within 24 hours at the earliest.
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