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GD-PQ200
GOLD
PQ200 Ferromagnetic Wear Analyzer Ferrous Debris Monitor
Instrument Introduction:
In terms of detection methods, the current iron content detection mainly includes atomic absorption method and atomic emission method. Although atomic absorption spectroscopy is accurate, its speed is slow and its operation is complex. Atomic emission spectroscopy has been widely used, but it cannot effectively detect large wear particles (whether it is a rotary electrode or inductive ion coupling). Not sensitive to large particles, sometimes fatal in monitoring and diagnosis, as particles normally worn by friction pairs are generally less than 10 μ m. And>15 μ The metal particles of m are generated due to abnormal wear.
Application fields:
Performance characteristics:
1. Adopting patented sensors and signal processing circuits, with good stability and high sensitivity.
2. The oil sample transmission and measurement are automatic, and one data can be measured in 10 seconds.
3. Equipped with PC data management software, measurement data can be directly imported into the computer for data management, trend analysis, curve printing, etc.
4. The oil sample does not need to be processed and can be directly injected into an oil bottle for measurement.
5. Chinese and graphical interface, convenient for user operation and use.
6. You can input any number and letter, and users can name the file.
Technical parameters:
1. Power supply: AC220V ± 10%, 50-60Hz;
2. Environmental temperature: 10 ℃~30 ℃;
3. Display screen: LCD120 ×90;
4. Repeatability: ± 4PQ or ± 1% [whichever is greater];
5. Resolution: 1PQ;
6. Test time: 7 seconds;
7. Measurable minimum value: 5PQ;
8. Detection range of abrasive particles: > 1 μ M ferromagnetic abrasive particles;
9. Serial port connection method: USB mother port;
10. Measurement range: 0~15000PQ;
11. Size: 370mm * 220mm * 136mm;
12. Weight: 4.2kg.
PQ200 Ferromagnetic Wear Analyzer Ferrous Debris Monitor
Instrument Introduction:
In terms of detection methods, the current iron content detection mainly includes atomic absorption method and atomic emission method. Although atomic absorption spectroscopy is accurate, its speed is slow and its operation is complex. Atomic emission spectroscopy has been widely used, but it cannot effectively detect large wear particles (whether it is a rotary electrode or inductive ion coupling). Not sensitive to large particles, sometimes fatal in monitoring and diagnosis, as particles normally worn by friction pairs are generally less than 10 μ m. And>15 μ The metal particles of m are generated due to abnormal wear.
Application fields:
Performance characteristics:
1. Adopting patented sensors and signal processing circuits, with good stability and high sensitivity.
2. The oil sample transmission and measurement are automatic, and one data can be measured in 10 seconds.
3. Equipped with PC data management software, measurement data can be directly imported into the computer for data management, trend analysis, curve printing, etc.
4. The oil sample does not need to be processed and can be directly injected into an oil bottle for measurement.
5. Chinese and graphical interface, convenient for user operation and use.
6. You can input any number and letter, and users can name the file.
Technical parameters:
1. Power supply: AC220V ± 10%, 50-60Hz;
2. Environmental temperature: 10 ℃~30 ℃;
3. Display screen: LCD120 ×90;
4. Repeatability: ± 4PQ or ± 1% [whichever is greater];
5. Resolution: 1PQ;
6. Test time: 7 seconds;
7. Measurable minimum value: 5PQ;
8. Detection range of abrasive particles: > 1 μ M ferromagnetic abrasive particles;
9. Serial port connection method: USB mother port;
10. Measurement range: 0~15000PQ;
11. Size: 370mm * 220mm * 136mm;
12. Weight: 4.2kg.
