Recently, a new automatic lubricant evaporation loss tester was introduced, which introduces advanced technology and uses the B method instead of the A method, bringing benefits to environmental protection and personnel safety. The instrument complies with ASTM D5800 standard and has several outstanding performance features.

First, the automated tester uses the new B-method, which eliminates the need for the traditional Wood's alloy, thus avoiding the risk of environmental contamination and personal injury. The introduction of this innovative technology brings a new breakthrough in lubricant evaporation loss testing, making the test process safer and more reliable.

Secondly, the instrument adopts embedded operating system and high-speed microprocessor control, which ensures the working stability and reliability of the instrument. This means that users can conduct experiments with confidence and obtain accurate and reliable results.

The instrument system is also equipped with self-contained calculation software, and the system will automatically calculate the evaporation loss after the experiment is completed by simply entering the weight. The introduction of this feature simplifies the operation process and improves efficiency, while reducing the possibility of human error.

For ease of use, the instrument features a high-definition LCD display and convenient touch screen operation. Users can intuitively view the experimental data and operation interface, and can easily make various settings and adjustments, making the operation easier and more user-friendly.

In terms of safety, the instrument has a built-in diagnostic program and various alarm functions to achieve intelligent management of instrument failures. This means that the user of the instrument can keep abreast of the instrument's status and can quickly take appropriate measures in case of abnormalities to ensure the safety and reliability of the experimental process.

In addition, the instrument can also be optional laboratory intelligent control module system to achieve remote intelligent information management of the Internet of Things. Through the cloud platform, the user can monitor the operating status of the instrument in real time, and obtain data such as user information, usage time, test duration, usage frequency, and different usage scenarios. Such data analysis and management system can provide users with more comprehensive and in-depth information, which helps to improve work efficiency and optimize the experimental process.