Vacuum Friction and Wear Tester

The Vacuum Friction and Wear Tester integrates a proven friction and wear testing mechanism into a sealed vacuum chamber, enabling reliable tribological testing under controlled vacuum conditions. By reproducing low-pressure environments that are difficult to simulate with conventional equipment, this system makes friction and wear evaluation under vacuum straightforward and repeatable. It is especially suited for performance assessment of materials, coatings, and components used in aerospace, advanced materials research, and emerging technologies where ambient-pressure testing is insufficient.

Application

This tester is designed for friction and wear evaluation in vacuum or reduced-pressure environments, covering a wide range of materials and surface treatments.

Typical applications include:

Tribological performance testing of aerospace structural materials under vacuum

Evaluation of solid lubricants and dry-film coatings in space-simulated environments

Friction and wear assessment of ceramics, precision metals, and surface-engineered materials

Research on new materials and technologies requiring environmental control

Comparative testing of coatings, polymers, and composites under vacuum conditions

Applicable test specimens include metal samples, ceramic components, coated substrates, polymer materials, and functional surface layers.

Standards

The Vacuum Friction and Wear Tester supports or is applicable to the following international and industry standards:

NASA / SAE AMS 3150 (Vacuum friction and wear testing of aerospace materials)

ESA PSS-01-705 (Friction and wear testing for space application materials under vacuum)

GB/T 6040-2008 (Metallic surface wear resistance test method)

GB/T 10375-2008 (Tribological test methods – reciprocating friction and wear testing)

ISO 12137-2 (Abrasion resistance of coated fabrics and films – environmental testing)

ISO 20502 (Fine ceramics and coatings scratch / wear testing, adaptable to vacuum conditions)

JIS L 0849 (Abrasion resistance test method for plastic products, optional vacuum conditions)

JIS P 8139 (Friction and wear performance evaluation of coatings, applicable in vacuum chambers)

Parameters

Features

Vacuum-integrated tribological testing structure

A well-established friction and wear testing mechanism is housed within a vacuum chamber, enabling accurate testing under low-pressure conditions.

Stable and reliable loading system

The balanced weight loading method allows precise load application starting from low loads, ensuring consistent contact conditions during testing.

Flexible test configuration

The rotating worktable supports a wide range of test modes, including optional high-speed wear testing and customized low-load configurations.

Wide vacuum capability

The standard configuration achieves vacuum levels down to 10 Pa, with optional high-vacuum specifications available to meet specialized testing requirements.

Integrated data acquisition and analysis

Friction force signals are captured via a dedicated sensor and processed using professional tribological analysis software for reliable result interpretation.

Accessories

Specimen holding clamps (customized upon request)

Tribological analysis software with A/D converter

Power cable

Operation manual

Test Procedures

Install the upper and lower specimens using the designated clamping fixtures.

Seal the vacuum chamber and initiate the vacuum pump system to reach the target pressure.

Set the desired normal load using the weight loading mechanism.

Configure rotational speed and test duration parameters via the control system.

Start the test and continuously monitor friction force signals during operation.

Upon completion, vent the chamber safely and remove the specimens for post-test analysis.

Analyze friction and wear data using the supplied software.

Maintenance Information

Regularly inspect vacuum seals, flanges, and O-rings to maintain chamber integrity.

Check and calibrate the force sensor periodically to ensure measurement accuracy.

Maintain the vacuum pump system according to manufacturer recommendations, including oil replacement and filter inspection.

Keep the rotating worktable and fixtures clean to prevent contamination of test results.

Store software and data acquisition components in a stable, dry environment.

FAQ

1. What is the core advantage of this product?

Its main advantage is the ability to perform reliable friction and wear testing under vacuum conditions using a proven tribological testing structure.

2. Are the test results reliable?

Yes. Stable weight loading, accurate force sensing, and controlled vacuum conditions ensure repeatable and dependable test results.

3. Which international or industry standards does it comply with?

The system is applicable to aerospace, space, and tribology standards such as NASA / SAE AMS, ESA PSS, ISO, GB/T, and JIS standards.

4. Why is this product important?

Many materials behave differently under vacuum than in ambient air. This tester enables realistic evaluation of material performance in environments relevant to aerospace and advanced technology applications.

5. Which fields is this product suitable for?

It is suitable for aerospace engineering, space technology, materials science research, surface engineering, and development of advanced coatings and new materials.