Jiubin JB-2500A Xenon Arc Weathering Test Chamber
| Brand | Jiubin |
|---|---|
| Origin | Shanghai, China |
| Manufacturer Type | Authorized Distributor |
| Country of Origin | China |
| Model | JB-2500A |
| Price Range | USD 7,000 – 14,000 |
| Internal Chamber Dimensions (D×W×H) | 670 × 850 × 660 mm |
| External Dimensions (D×W×H) | 1200 × 1250 × 1800 mm |
| Temperature Range | +10°C to +80°C |
| Temperature Uniformity | ±2°C |
| Temperature Stability | ±0.5°C |
| Black Panel Temperature Range | 50°C to 90°C |
| Humidity Range | 30–98% RH |
| Humidity Uniformity | ±5% RH |
| Humidity Stability | ±2% RH |
| Irradiance Control | 550 W/m² (290–800 nm) |
| Xenon Lamp Configuration | 3 × 2.5 kW (Total 7.5 kW), Adjustable Output |
| Lamp Life | ≥2500 h |
| Sample-to-Lamp Distance | 350–375 mm |
| Sample Tray Size | 400 × 700 mm |
| Rain Cycle | 0–240 min (interval mode) |
| Spray Duration/Rest | 18 min / 102 min |
| Continuous Spray Time | 0–9999 min |
| Exposure Timer | 0–999 h (setpoint) |
| Program Timer | 0–99 h (cyclic) |
| Heating Power | 1 kW |
| Humidification Power | 1 kW |
| Noise Level | ≤80 dB(A) at 1 m |
| Water Pressure for Nozzles | 1.0–1.5 bar |
Overview
The Jiubin JB-2500A Xenon Arc Weathering Test Chamber is a precision-engineered environmental simulation system designed to replicate and accelerate the effects of natural sunlight, heat, humidity, and precipitation on materials. It employs a calibrated triple-lamp xenon arc light source—spectrally filtered to closely match terrestrial solar irradiance (290–800 nm)—to deliver controlled, repeatable UV, visible, and near-infrared exposure. This configuration enables compliance with internationally recognized weathering standards including ISO 4892-2, ASTM G155, ASTM D4459, SAE J2527, and IEC 60068-2-9. The chamber integrates tightly regulated thermal management, programmable humidity control, and synchronized water spray cycles to simulate diurnal and seasonal climatic stressors—including condensation, dew formation, and simulated rainfall—in a single test environment. Its architecture supports long-term stability and inter-laboratory reproducibility, making it suitable for R&D validation, comparative material screening, and quality assurance in automotive, aerospace, coatings, plastics, textiles, and photovoltaic industries.
Key Features
- Triple 2.5 kW air-cooled xenon lamps with spectral filters enabling accurate solar spectrum replication (290–800 nm), adjustable irradiance up to 550 W/m²
- High-stability temperature control system with ±0.5°C fluctuation and ±2°C uniformity across the working volume
- Black panel thermometer (BPT) monitoring with 50–90°C range, critical for surface temperature correlation in polymer and coating degradation studies
- Humidity control from 30–98% RH with ±2% stability and ±5% uniformity, supporting both steady-state and cyclic hygrothermal profiles
- Programmable rain simulation: interval mode (0–240 min cycle), continuous spray (0–9999 min), and fixed spray/rest ratio (e.g., 18/102 min)
- Robust stainless-steel chamber interior with corrosion-resistant sample tray (400 × 700 mm) and adjustable sample-to-lamp distance (350–375 mm)
- Integrated heating (1 kW) and steam-based humidification (1 kW) systems ensuring rapid thermal/hygrometric response and minimal overshoot
- Low-noise operation (≤80 dB(A) at 1 m) achieved via optimized airflow design and vibration-damped lamp housing
Sample Compatibility & Compliance
The JB-2500A accommodates flat-panel specimens up to 400 × 700 mm and thicknesses compatible with standard ISO 11341, ASTM D2244, and GB/T 16422.2 mounting fixtures. Its chamber geometry allows simultaneous testing of multiple material types—including thermoplastics, elastomers, pigmented coatings, adhesives, and composite laminates—under identical irradiance and environmental conditions. All operational parameters are traceable to NIST-traceable calibration protocols. The system supports audit-ready documentation for GLP and ISO/IEC 17025 laboratories, and its controller logs timestamped environmental data compliant with FDA 21 CFR Part 11 requirements when paired with validated software configurations.
Software & Data Management
The chamber operates via an embedded industrial-grade touchscreen controller with intuitive menu navigation and multi-level password protection. It records real-time values for irradiance, black panel temperature, chamber temperature, relative humidity, and spray status at user-defined intervals (1–60 sec). Data export is supported via USB or RS485 interface in CSV format. Optional PC-based software provides advanced scheduling (multi-step programs with up to 99 segments), statistical trend analysis, alarm history, and automated report generation aligned with ASTM E2078 and ISO 16783 templates. Audit trails include operator ID, parameter changes, and calibration events—essential for regulatory submissions and internal QA audits.
Applications
- Evaluation of color fade, gloss loss, chalking, cracking, and embrittlement in automotive exterior trim and paint systems
- Accelerated lifetime prediction of polymeric encapsulants and backsheets in photovoltaic modules per IEC 61215
- Validation of UV stabilizers and HALS additives in polyolefins and PVC formulations
- Correlation studies between outdoor Florida/Arizona exposure and laboratory accelerated testing
- Qualification of aerospace sealants and radome materials under combined thermal cycling and solar loading
- Supporting ISO 4892-2-compliant weathering protocols for medical device packaging and sterilization barrier materials
FAQ
What standards does the JB-2500A comply with?
It meets core requirements of ISO 4892-2, ASTM G155, ASTM D4459, SAE J2527, and IEC 61215 for xenon arc exposure testing.
Can irradiance be calibrated and maintained over time?
Yes—the system includes a built-in broadband radiometer with manual zero-point adjustment; annual recalibration against a NIST-traceable reference sensor is recommended.
Is the chamber suitable for testing three-dimensional parts?
It is optimized for flat-panel specimens; 3D parts require custom fixturing to ensure uniform irradiance distribution and thermal exposure.
What maintenance is required for the xenon lamps?
Lamps should be replaced after ≥2500 hours of operation or if output drops below 90% of initial irradiance; quartz filter sleeves must be cleaned weekly and replaced annually.
Does the system support remote monitoring?
Standard configuration includes local Ethernet port; optional IoT gateway module enables secure cloud-based status monitoring and email/SMS alerts for critical alarms.
