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Product Overview

The Universal Friction and Wear Testing Machine is a versatile laboratory instrument designed to evaluate friction, wear, and lubrication performance of materials under controlled conditions. It simulates various friction environments, measures coefficients of friction, and assesses material wear properties.

This tester is widely used for materials science research, lubricant development, industrial quality control, and environmental adaptation studies. By providing precise, reproducible data, it helps manufacturers and researchers optimize material performance, improve product reliability, and extend service life.

Application Fields

Petrochemical Industry: Evaluate long-term wear resistance of lubricating oils and greases; develop hydraulic oils, gear oils, and engine oils.

Materials Science: Analyze friction and wear characteristics of emerging materials; provide data for new material design and optimization.

Universities & Research Institutes: Serve as a teaching and research tool in tribology and material science studies.

Industrial Applications: Test friction and wear performance of parts in automobiles, trains, subways, wind turbines, ships, and construction machinery.

Main Uses

Friction Property Evaluation: Simulate different friction scenarios to measure coefficients of friction, determining material suitability for specific applications.

Lubricant Testing: Assess the impact of lubricants on friction and wear to develop more efficient and durable products.

Wear Performance Assessment: Quantify material wear under frictional forces, predict service life, and optimize material design.

Environmental Adaptation Testing: Measure frictional performance under various temperatures and humidity levels to evaluate material stability.

Drive System Component Evaluation: Analyze transmission ratio and performance of mechanical drive components, enhancing operational efficiency.

Applicable Standards

The machine can be adapted to test materials following relevant national and international standards, including but not limited to:

ASTM standards for friction and wear testing

ISO standards related to tribology and material wear

GB/T standards for materials and lubricant evaluation

Note: Due to its wide application scope, the specific standard depends on material type, friction mode, and testing requirements. Users should consult standards before testing to ensure accuracy and comparability.

Key Advantages

Versatile Testing Modes: Supports multiple friction configurations, load ranges, and environmental conditions.

High Precision Measurement: Accurate detection of friction coefficient, wear rate, and force with digital data acquisition.

Environmental Simulation: Temperature and humidity control to test materials under real-world conditions.

Durable Construction: Industrial-grade components ensure long-term reliable operation.

Data Analysis & Reporting: Integrated software allows automatic data collection, analysis, and report generation.