The manual requires a "System Check" at the start of every shift. Place the analyzer on the dedicated tungsten check base or the internal calibration standard and select System Check from the main menu. 4. How to Take a Measurement To get the most accurate results, follow these steps:
Beep. Beep. Error.
Data can be logged via the touch screen, or a barcode scanner can be integrated. Reading Results Niton Xlt 898 User Manual
The Niton XLt 898 is a handheld energy-dispersive X-ray fluorescence (XRF) analyzer. It is designed for in industrial, scrap, and QA/QC environments.
For small or irregular parts, use the test stand. The manual requires a "System Check" at the
Check the measurement window for damage or debris before use.
Disclaimer: This article is a summary of typical manual contents. Always refer to the specific, official Thermo Scientific Niton Xlt 898 User Manual that accompanied your device for the most accurate information. How to Take a Measurement To get the
Most alloy IDs are confirmed in 2–5 seconds. For full chemistry (trace elements), you may need to hold for 10–20 seconds. 5. Understanding the Results The XLt 898 displays data in several formats: Match: Shows the closest alloy grade (e.g., SS-316).
: Best for standard steel, stainless steel, nickel, copper, and cobalt-based superalloys.
: Accesses stored testing logs and historical spectra.
| Parameter | Value | |-----------|-------| | Excitation source | 40 kV / 50 µA X-ray tube (Ag or Rh target) | | Detector | High-resolution Si-PIN (165 eV FWHM @ 5.9 keV) | | Elements measured | 20+ (Mg to U) depending on mode | | Operating range | -10°C to 50°C | | Battery life | 6–8 hours (hot-swappable) | | Data memory | 10,000 readings (internal flash) | | Display | Backlit LCD, 128x64 pixels |