A Hot Air Oven Chamber is a controlled heating system used for sterilization, drying, curing, and thermal testing of products and materials. It uses forced air circulation to distribute heat uniformly, ensuring that all test samples are exposed to consistent temperatures. These chambers are essential for testing the thermal stability, heat resistance, and longevity of products under prolonged exposure to high temperatures.
Hot Air Ovens are widely used in industries like pharmaceuticals, electronics, automotive, aerospace, and manufacturing. Their applications range from material drying and polymer curing to the sterilization of medical instruments. Hot air ovens are also used for testing the thermal resistance of electronic components, paints, and coatings.
Temperature range of +50°C to +300°C (custom ranges available).
Uniform air distribution using fans for consistent heating.
Available in small benchtop, medium, large, and walk-in sizes.
Thyristorized PID controller, PLC-based control with touchscreen HMI for temperature and time control.
Advanced insulation and heating technology reduce energy consumption.
Over-temperature protection, emergency alarms, and fail-safe mechanisms.
USB, Ethernet, and cloud-based monitoring for precise data analysis.
Supports drying, curing, sterilization, and thermal stability testing.
Flexible racks to test multiple products at once.
ISO 9001:2015, CE, NABL and other industry standards
Sterilization of glassware, surgical instruments, and medical devices.
Thermal stability testing of PCBs, semiconductors, and other electronic components.
Drying, curing, and thermal resistance testing of paints, coatings, and automotive parts.
Testing of composites, metals, and heat-resistant materials for aviation and spaceflight.
Curing adhesives, resins, and coatings to improve product strength and finish.
Material testing, sample drying, and sterilization in R&D laboratories.
Evaluates the product's resistance to high temperatures.
Removes moisture from materials, samples, and components.
Kills bacteria, fungi, and pathogens on glassware, metal, and other medical devices.
Cures paints, coatings, adhesives, and resins to improve product quality.
Simulates prolonged exposure to heat to assess product lifespan.
| Specification | Details |
|---|---|
| Model | Customizable (Standard & Custom Models Available) |
| Temperature Range | +50°C to +300°C (Customizable up to +500°C) |
| Temperature Accuracy | ±1°C at steady-state conditions |
| Temperature Uniformity | ±2.0°C |
| Heating Rate | 3°C to 10°C per minute (Customizable for faster rates) |
| Chamber Size | 100 L to 100000+ L (Benchtop, Reach-In, Large, Walk-In) |
| Test Modes | Drying, Sterilization, Curing, and Heat Resistance Testing |
| Controller Type | Thyristorized PID controller, PLC-based, Touchscreen HMI Interface |
| Data Logging | USB, Ethernet, Cloud-based Remote Monitoring |
| Airflow System | Forced Air Circulation with Uniform Distribution |
| Power Supply | 415 V/ 3-Phase (Custom Voltage Options Available) |
| Noise Level | < 75 dB at full load |
| Construction Material | Stainless Steel (Interior), Powder-Coated Steel (Exterior) |
| Compliance | ISO 9001:2015, CE, NABL and other industry standards |
| Safety Features | Over-temperature protection, emergency stop, air circulation failure alarms |
| Warranty | 1 Year(Extended Warranty Available) |
| Optional Features | IoT Connectivity, Humidity Control, Vibration Integration, Remote Monitoring |