Shanghai Youyi DHG-9308A High-Temperature Forced-Air Drying Oven (400 °C)
| Brand | Shanghai Youyi / SHYY |
|---|---|
| Origin | Shanghai, China |
| Manufacturer Type | Direct Manufacturer |
| Product Category | Domestic |
| Model | DHG-9308A |
| Temperature Range | RT+20 °C to 400 °C |
| Temperature Uniformity | ±2.5% (at 100 °C, empty chamber) |
| Temperature Fluctuation | ±2 °C |
| Temperature Resolution | ±1 °C |
| External Dimensions | 840 × 995 × 1390 mm (W×D×H) |
| Internal Chamber Dimensions | 500 × 600 × 1000 mm (W×D×H) |
| Chamber Volume | 300 L |
| Chamber Material | Mirror-Finish Stainless Steel (SUS304) |
| Heating Method | Electric Resistive Heating |
| Power Supply | AC 380 V, 50 Hz |
| Input Power | 5500 W |
| Air Circulation | Multi-blade Centrifugal Fan with Adjustable Airflow Dampers |
| Insulation | High-Density Glass Fiber (≥100 mm thickness) |
| Door Seal | Dual-Layer Ceramic Fiber Rope Gasket |
| Control Interface | 4.3-inch TFT LCD Touchscreen (with setpoint, real-time temperature, timer, auto-tuning, and power modulation) |
Overview
The Shanghai Youyi DHG-9308A is a high-temperature forced-air drying oven engineered for precision thermal processing in industrial R&D laboratories, quality control environments, and production support settings. Operating across a validated temperature range from ambient +20 °C up to 400 °C, it employs resistive heating elements coupled with a dynamically balanced multi-blade centrifugal circulation system to achieve rapid thermal ramping and stable equilibrium conditions. Unlike natural-convection ovens, the DHG-9308A utilizes active air movement—optimized via adjustable inlet/outlet dampers and pre-heated air injection through an integrated preheat cavity—to minimize vertical and horizontal thermal gradients. This architecture ensures compliance with ISO 17025-referenced thermal uniformity requirements (±2.5% at 100 °C, empty load), making it suitable for applications demanding reproducible heat exposure, including polymer curing, metal oxide pre-firing, catalyst activation, and residual solvent removal in pharmaceutical intermediates.
Key Features
- Microprocessor-based temperature controller with 4.3-inch full-color TFT LCD interface, supporting programmable ramp/soak profiles, PID auto-tuning, and power suppression to mitigate overshoot during startup.
- Robust chamber construction featuring mirror-polished SUS304 stainless steel interior, cold-rolled steel exterior with electrostatic epoxy coating, and ≥100 mm thick high-density glass fiber insulation for low thermal leakage.
- Dual-layer ceramic fiber rope door gasket rated for continuous operation at 400 °C, ensuring long-term sealing integrity and resistance to thermal degradation.
- Preheat cavity design directs fully mixed, pre-warmed air directly into the working chamber—reducing stabilization time by up to 35% compared to conventional ducted systems.
- Independent over-temperature cut-off circuit (optional) compliant with IEC 61000-4-2 and UL 61010-1 safety standards; automatically interrupts heating if user-defined limit is exceeded.
- Modular accessory compatibility including RS485 Modbus RTU interface (with included PC software for data logging and audit trail generation), embedded thermal printer (for GLP-compliant hardcopy records), and calibrated test port kits (25 mm or 50 mm diameter).
Sample Compatibility & Compliance
The DHG-9308A accommodates standard laboratory ware (e.g., porcelain crucibles, alumina boats, stainless steel trays) and industrial fixtures up to 300 L volume. Its stainless steel chamber resists oxidation and acidic fume corrosion common in thermal decomposition workflows. The unit meets CE marking requirements for electromagnetic compatibility (EN 61326-1) and electrical safety (EN 61010-1). While not inherently 21 CFR Part 11–compliant, optional RS485 + software configuration supports electronic record retention, user-level access control, and time-stamped event logs—enabling alignment with GLP and GMP documentation expectations where local regulatory interpretation permits.
Software & Data Management
The optional RS485 communication module enables bidirectional integration with LIMS or SCADA platforms using standard Modbus RTU protocol. Bundled Windows-compatible software provides real-time monitoring, configurable alarm thresholds, CSV export of timestamped temperature histories, and automated report generation—including min/max/mean deviation statistics per cycle. All logged data includes operator ID, session start/end timestamps, and firmware revision—supporting traceability in regulated environments. Printer output delivers thermally stable paper records with embedded calibration certificate references.
Applications
- Thermal aging studies of elastomers, composites, and adhesives per ASTM D573 and ISO 188.
- Moisture content determination in ceramics, minerals, and battery electrode materials (in accordance with ISO 5725 validation guidelines).
- Curing of powder coatings and epoxy resins under controlled ramp-hold-cool cycles.
- Pre-conditioning of reference standards prior to gravimetric analysis or XRD sample preparation.
- Stabilization of platinum resistance thermometers (PRTs) and thermocouple wire assemblies before calibration.
- Residual solvent evaporation from API batches in non-GMP pilot-scale manufacturing.
FAQ
What is the maximum continuous operating temperature?
The DHG-9308A is rated for continuous operation at 400 °C, verified per manufacturer thermal mapping protocols conducted at three load conditions (empty, half-load, full-load) using NIST-traceable Class A PT100 sensors.
Is the oven suitable for inert atmosphere processing?
No—it is configured for ambient air operation only. For nitrogen or argon purging, custom modifications including gas inlet/outlet ports and pressure-relief valves must be specified at order stage.
Can temperature uniformity be independently verified?
Yes. The unit ships with a factory-generated thermal uniformity report (per ISO 17025-accredited internal procedure), and users may perform requalification using calibrated multi-point data loggers aligned with ISO/IEC 17025 Clause 6.4.3.
Does the controller support multiple user profiles with role-based permissions?
The base controller does not include user authentication; however, the optional PC software supports multi-user login with password-protected access levels (operator, supervisor, administrator) and activity logging.
What maintenance intervals are recommended for sustained 400 °C operation?
Fan bearings and door gaskets should be inspected every 500 operational hours; insulation integrity and heater continuity testing are advised annually or after any thermal shock event exceeding 150 °C/min ramp rate.
