VeroXi

The VeroXi Oxidation Stability Analyzer is designed for accurate evaluation of oxidation stability in oils, fuels, and lubricants. Built for laboratory environments, it provides reliable and repeatable results while supporting standardized oxidation stability testing procedures.

The VeroXi complies with internationally recognized testing standards including ASTM D2272, ISO 7536, EN 16091, and IP 40. These standards ensure reliable and reproducible oxidation stability measurements for laboratories performing quality control and research in the automotive, oil, and energy industries.

Highlights

The VeroXi oxidation stability analyzer delivers accurate and repeatable results for testing the oxidation stability of oils, lubricants, and other fluid samples, making it an essential tool for laboratory quality control and research applications.

The instrument features an intuitive user interface and streamlined testing workflow for efficient sample preparation and analysis. Customizable test methods, precise temperature and pressure control, and automated gas release functions ensure reliable testing conditions. Our oxidation stability analyzer can store up to 10,000 test results, enabling laboratories to review historical data and compare oxidation stability performance over time. Its design incorporates a copper coil for effective mixing, a stable oxygen supply system, and a guided testing procedure that simplifies operation from sample preparation to result storage.

Features

Efficient Operation and Sample Preparation

• Detailed Sample Preparation: This feature demonstrates the precise sample preparation process, including the step-by-step addition of oil and distilled water, weighing the sample accurately, and ensuring proper placement of the copper coil. These steps are critical for ensuring the reliability and accuracy of the oxidation stability test results.

• Oxygen Supply and Pressure Settings: Learn how to connect the oxygen hose to the device and adjust the gas inlet pressure to 7 bar. This ensures that the device operates within the optimal conditions for accurate testing, maintaining a consistent and controlled environment for every test.

• Efficient Device Bath Setup: The video covers the process of adding distilled water to the device bath to ensure proper thermal contact and securely closing the bath cover. This step is crucial for maintaining stable test conditions throughout the process.

• Test Start Procedure: Walk through the steps for starting a new test, including entering operator details, selecting the appropriate ASTM method, and initiating the test. This ensures that the testing process is simple and efficient, with standardized procedures for consistent results every time.