Key steps in X-ray fluorescence spectrometry analysis: using anhydrous lithium tetraborate flux
Release time:
2023-09-13
Have you ever wondered why X-ray fluorescence analysis is so important? Why is it so popular in scientific research and industrial fields? This article explores X-ray fluorescence fusion machine Key steps in X-ray fluorescence analysis, especially the importance of using anhydrous lithium tetraborate flux.
X-ray fluorescence fusion machine is a commonly used analytical technique for detecting and quantifying elements. It determines the elemental composition of a sample by measuring the energy and intensity of X-rays in the sample. To obtain accurate results, X-ray fluorescence analysis requires a series of key steps.
In X-ray fluorescence fusion machine analysis, samples usually need to undergo fusion treatment to eliminate impurities and improve measurement accuracy. This is why the fusion machine plays a key role in X-ray fluorescence analysis. It can melt the sample and form a uniform melt for better measurement of the elements in the sample.
In X-ray fluorescence analysis, selecting the right flux is very important. Anhydrous lithium tetraborate flux is a commonly used flux with many advantages. It has a low melting point and high solubility, making it easy to melt the sample and form a uniform melt. Anhydrous lithium tetraborate flux has good solubility for most elements and is suitable for various sample types. It can lower the temperature of sample melting, thus reducing the thermal impact on the sample.
The key steps in X-ray fluorescence fusion machine analysis using anhydrous lithium tetraborate flux are as follows:
1. Sample preparation: Prepare the sample to be analyzed into a form suitable for fusion, such as powder or granules.
2. Add flux: Add an appropriate amount of anhydrous lithium tetraborate flux to the sample.
3. Melt the sample: Mix the sample with the flux and perform melting treatment. This can be achieved using a fusion machine to ensure that the sample and flux are fully mixed and form a uniform melt.
4. Cooling: Cool the melt to form a solid.
5. Analysis: Place the solid sample in an X-ray fluorescence analyzer for measurement.
The importance of using anhydrous lithium tetraborate flux in X-ray fluorescence fusion machine cannot be ignored. By correctly using anhydrous lithium tetraborate flux, accurate and reliable analytical results can be obtained, and the efficiency and accuracy of X-ray fluorescence analysis can be improved.
Related Blog
Scan
Luoyang Turner High Temperature Instrument Co., Ltd.
+86-400-880-7095
Sales (same as WeChat):18695992058
Contact:+86-379-69755886
Address: South Section of Shuangxiang Road, Luoxin Industrial Cluster, Luoyang City, Henan Province
Email:tnkinstrument@163.com
Copyright © Luoyang Tainake High-Temperature Instrument Equipment Co., Ltd. IPV6