Cargo Compartment Liner Burn-Through Fuel Tester
Category:Flammability Tester
Introduction
The Cargo Compartment Liner Burn-Through Fuel Test System is a specialized aviation fire testing platform designed to evaluate burn-through resistance, flame spread behavior, and fuel fire performance of aircraft cargo compartment liners and related materials under controlled aviation fuel fire exposure. The system integrates the FAA-approved NexGen aviation fuel burner with a dedicated seat cushion test frame and dynamic loading motion system, enabling realistic simulation of aircraft fire scenarios while accurately controlling and monitoring fuel and air parameters. Its modular design supports current regulatory testing requirements and future FAA technical upgrades.
Application
This Cargo Compartment Liner Burn-Through Fuel Tester is suitable for aviation fuel fire testing of a wide range of aerospace materials and components, particularly those used in aircraft interiors and cargo compartments, including:
Cargo compartment liner panels
Aircraft seat cushions
Composite sandwich panels
Cabin interior panels
Ceiling and sidewall liners
Fire barrier layers
Thermal and acoustic insulation assemblies
Multi-layer composite structures
The FAA-approved NexGen burner provides standardized aviation fuel flame exposure, while the seat cushion test frame and dynamic motion system allow direct evaluation of flame behavior, burn-through risk, and material performance under realistic fire conditions.
Standards
The Cargo Compartment Liner Burn-Through Fuel Tester supports testing in accordance with the following international aerospace fire safety standards:
BSS 7303 – Combustion performance and flame spread behavior of aerospace composite materials
AITM 2.0009 – Determination of flame spread characteristics of aerospace materials
FAR Part 25 Appendix F Part II – Aircraft cabin material combustion, flame spread, and smoke toxicity requirements
Parameters
| Item | Specification |
|---|---|
| Overall dimensions | 1500 mm (W) × 1800 mm (H) × 900 mm |
| System weight | 150 kg |
| Power requirement | 220 V, 10 A |
| Operating temperature | 10°C to 35°C |
| Fuel type | Aviation kerosene |
| Air supply | Minimum 120 PSI compressed air |
| Flame temperature capability | ≥ 2000 ± 50 ℉ |
| Heat flux output | ≥ 10.6 W/cm² |
| Temperature control bath | ≥ 2 × 0.14 m³ |
Features
1. The burner cone is made of a corrosion-resistant and high-temperature-resistant alloy.
2. The NexGen aviation fuel burner includes components such as a spoiler, fuel nozzle, igniter, fuel rail, mounting plate, ventilation duct and housing, muffler, and acoustic damper.
3. Equipped with a fuel pressure gauge, fuel solenoid valve, fuel temperature detection device, air pressure regulating valve, and air temperature detection device.
4. Equipped with an ice bath with a volume of at least 2 x 0.14 m³ for fuel and air temperature control, allowing for precise fuel temperature control.
5. Different testing standards can be met by changing the fuel nozzle and air pressure input.
6. The burner is covered with an insulating blanket to cover the fuel lines and fuselage.
7. The NexGen aviation fuel burner can provide a flame temperature of at least 2000±50℉.
8. The NexGen aviation fuel burner provides a flame heat flux of no less than 10.6 W/cm².
9. Modular unit using the NexGen burner support system.
10. Heavy-duty steel frame, capable of horizontal and vertical mounting of test samples.
11. Seven 1.6 mm diameter ceramic-encapsulated, metal-sheathed, grounded Type K (NiChC-NiA) thermocouples should be used for calibration. The conductors should have an outer diameter of 0.254 mm, a cross-sectional area of 0.0507 mm², and a resistance of 361 Ω/km (US wire gauge 30 AWG). The thermocouples should be fixed to an angle steel bracket to form a thermocouple comb for placement on the sample holder during calibration.
12. Thermal radiation flux sensor, equipped with a cooling device, mounted on a fixed bracket.
Accessories
The system is supplied with the following components:
NexGen aviation fuel burner
Seat cushion test frame
Dynamic loading motion system
Fuel temperature control ice bath
Thermocouple calibration comb
Radiant heat flux sensor with cooling unit
Powder-coated steel support frame with digital scale
Movable seat cushion test fixture
Movable drip collection tray
Burner thermal insulation blanket
FAQ
1. What is the core advantage of this product?
The key advantage is the use of the FAA-approved NexGen burner, which provides higher measurement accuracy, better repeatability, and built-in capability for future regulatory upgrades, combined with a dedicated seat cushion and cargo liner test configuration.
2. Are the test results reliable?
Yes. The system employs calibrated thermocouples, controlled fuel temperature, stable air pressure regulation, standardized heat flux measurement, and a calibrated load cell system, ensuring high repeatability and traceability of results.
3. Which international/industry standards does it comply with?
The system supports testing in accordance with BSS 7303. AITM 2.0009. and FAR Part 25 Appendix F Part II.
4. Why is this product important?
It enables realistic evaluation of burn-through risk in aircraft cargo compartment liners and seat cushions, directly supporting aviation safety certification, material qualification, and regulatory compliance.
5. Which fields is this product suitable for?
The system is appropriate for:
Aerospace testing laboratories
Aircraft manufacturers
Aviation material suppliers
Certification and regulatory bodies
