Pressure Sensors for Aero Engine and Gas Turbine Testing

Professional aviation-grade pressure sensors designed for aero engine bench testing and gas turbine performance testing.

Verified to DO-160G aviation environmental standards and MIL-STD-810 military reliability specifications, with 1200℃ transient heat resistance and 2000g anti-vibration capability.

All test data supports ISO 17025 CNAS traceable calibration for global aerospace test projects.

Product Overview

Aero engine and gas turbine testing requires high-reliability pressure measurement equipment. Ordinary industrial pressure sensors cannot adapt to extreme test environments, including high transient temperature, strong random vibration and pulsed pressure impact during engine operation.

Our aero engine pressure sensors are professionally optimized for aerospace and gas turbine test scenarios. They are widely used in turbofan engine testing, turbojet engine bench tests, gas turbine combustor dynamic pressure monitoring and high-altitude wind tunnel calibration tests.

All sensors are bench-tested to meet DO-160G aircraft environmental standards and MIL-STD-810 military extreme environment specifications. With ultra-low zero drift and fast dynamic response, the sensors deliver stable, accurate and repeatable pressure test data. Every performance indicator supports ISO 17025 CNAS international calibration traceability, fully meeting the audit and testing requirements of global aviation research institutions and gas turbine manufacturers.

Core Application Scenarios

Where Our Aero Engine & Gas Turbine Pressure Sensors Apply

Aero Engine Bench Testing: Real-time static and dynamic pressure monitoring for engine inlet and outlet, suitable for full-throttle transient tests and long-term endurance testing of various aero engines.
Gas Turbine Performance Testing: Accurate pressure detection for gas turbine combustor pulse pressure, internal cavity pressure and load-changing dynamic pressure, ensuring stable operation test data.
Wind Tunnel Calibration Testing: Professional pressure sensors for high-altitude simulation environment calibration, aerodynamic testing and airflow dynamic pressure verification.
Aerospace R&D and Type Testing: Support new engine prototype development, extreme condition simulation tests and official test data traceability audits for aviation projects.
Industrial Gas Turbine Monitoring: Continuous pressure monitoring for power generation gas turbine combustion systems and industrial turbine test benches.

Product Core Advantages

Why Choose Our Aviation-Grade Pressure Sensors

Extreme Environment Resistance：Stable operation from -60℃ to 380℃ continuous temperature, withstand 1200℃ transient thermal shock and 2000g high-intensity vibration in line with DO-160G standards, no zero drift or data distortion.
Ultra-High Testing Precision：Long-term zero drift ≤±0.02%FS, millisecond-level dynamic response, capturing transient pressure changes accurately for high-standard aerospace testing.
International Standard Compliance：Verified with DO-160G aviation vibration and temperature standards, MIL-STD-810 military reliability specifications, with full ISO 17025 CNAS traceable calibration for global project recognition.
Long Service Stability：Aerospace-grade diaphragm and anti-vibration structure design, 8500 hours MTBF, reducing test interruptions and equipment replacement costs.
Professional Customization：Custom pressure range, high-temperature parameter adjustment, special mounting interface and multi-channel acquisition solutions for personalized test bench requirements.

Key Technical Specifications

Continuous Working Temperature: -60℃ ~ 380℃
Transient Heat Resistance: 1200℃ instant thermal shock tolerance
Vibration Resistance: 2000g (DO-160G Standard Verified)
Long-Term Zero Drift: ≤±0.02%FS
Dynamic Response: High-frequency response for transient pulse pressure capture
Protection Grade: IP68 aerospace-grade hermetic sealing
Compliance Standard: DO-160G, MIL-STD-810 Spec Verified | ISO 17025 CNAS Traceable</li&gt>
Service Life: 8500 hours MTBF

Industry Pain Points & Solutions

- Most industrial pressure sensors cannot adapt to extreme aviation test environments.
- High temperature and strong vibration easily cause data deviation and sensor failure, resulting in repeated tests, low efficiency and increased test costs for aero engine and gas turbine projects.
- Standard aviation sensors on the market have fixed parameters and cannot meet customized test bench and special extreme working condition requirements.
- Our dedicated aero engine pressure sensors solve these core problems. Optimized for harsh test environments, the sensors maintain stable and accurate pressure output.
- Customized parameter tuning and structural design fully adapt to different engine and gas turbine test scenarios, ensuring reliable test data and improving overall project efficiency.

Field Application Case

European Aerospace Laboratory Turboprop Engine Bench Test

A European professional aerospace test institution faced frequent sensor failure and discontinuous test data during long-hour turboprop engine bench tests, caused by persistent high vibration and thermal shock.

We provided custom DO-160G verified pressure sensors for the project. After 4000 hours of uninterrupted testing, the sensors kept ultra-low zero drift and stable dynamic pressure output. All test data passed third-party audit with complete ISO 17025 CNAS traceable calibration records.

The solution effectively eliminated test interruptions and frequent equipment replacement. The customer has adopted our sensors in batches for multiple aero engine and gas turbine test projects.

Frequently Asked Questions

Q1: What sensors are suitable for aero engine and gas turbine testing?

Aero engine and gas turbine testing requires aviation-grade pressure sensors verified to DO-160G and MIL-STD-810 standards. These sensors feature high temperature resistance, strong anti-vibration performance and low drift, which are essential for accurate measurement in extreme test environments.

Q2: Why industrial pressure sensors are not for aviation engine testing?

Aviation test environments include extreme transient heat and high-intensity random vibration. Ordinary industrial sensors lack environmental adaptability, which will cause zero offset and data distortion, failing to meet strict aerospace testing precision and reliability requirements.

Q3: Can you customize pressure sensors for special gas turbine test conditions?

Yes. We provide full one-stop customization services, including custom pressure ranges, high-temperature performance optimization, special mounting structures and exclusive calibration solutions for unique test bench environments.

Q4: Are your sensor test data acceptable for international audits?

All our aero engine pressure sensors support international third-party verification. We provide official ISO 17025 CNAS traceable calibration documents, fully compliant with global aerospace and gas turbine test audit standards.

Get Reliable Aero Engine Pressure Test Solutions

DO-160G & MIL-STD-810 Verified Pressure Sensors | ISO 17025 CNAS Traceable | Customized for Gas Turbine & Aero Engine Testing