ZSX Primus III+
Rigaku ZSX Primus III+ delivers rapid quantitative determination of major and minor atomic elements, from oxygen (O) through uranium (U), in a wide variety of sample types — with minimal standards. ZSX Primus III+ features an innovative optics-above configuration. Never again worry about a contaminated beam path or down time due to sample chamber maintenance. The optics-above geometry eliminates cleaning worries and increases…
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Rigaku ZSX Primus III+ delivers rapid quantitative determination of major and minor atomic elements, from oxygen (O) through uranium (U), in a wide variety of sample types — with minimal standards.
ZSX Primus III+ features an innovative optics-above configuration. Never again worry about a contaminated beam path or down time due to sample chamber maintenance. The optics-above geometry eliminates cleaning worries and increases up time.
The high precision positioning of the sample ensures that the distance between the sample surface and X-ray tube is kept constant. ZSX Primus III+ performs high-precision analysis using a unique optical configuration designed to minimize errors caused by non-flat surfaces in samples such as fused beads and pressed pellets.
EZ-scan allows users to analyze unknown samples without any prior setup. This time saving feature requires only a few clicks of the mouse and a sample name to be entered. Combined with SQX fundamental parameters software, it provides the most accurate and rapid XRF results possible. SQX is capable of automatically correcting for all matrix effects, including line overlaps.
ZSX Primus III+ Features:
- Analysis of elements from O to U
- Tube above optics minimizes contamination issues
- Small footprint uses less valuable lab space
- High precision sample positioning
- Special optics reduce errors caused by curved sample surfaces
- Software tools for statistical process control (SPC)
- Evacuation and vacuum leak rates can be optimized for throughput
Quantitative Analysis of Low Alloy Steel using the ZSX PrimusIII+
In this application note it is shown that accurate analysis of the elements in low alloy steel can rapidly be performed using the ZSX PrimusIII+ from Rigaku. High alloys such as stainless steel and nickel alloy can also be effectively analyzed with high precision. The ZSX PrimusIII+ is optimized for process control of steelmaking including the analyses of slag and ferroalloys.
Determination of Metals in Copper Concentrate by Advanced Correction Method for Fused Beads
The fusion method is an effective sample preparation technique for accurate analysis of a wide variety of powder samples including minerals and ores by XRF spectrometry since it eliminates heterogeneity due to grain size effects and mineralogical composition. In order to take advantage of the fusion method, however, appropriate corrections for errors arisen from fusion processes are required. In this application note the fusion method with improved correction for errors is demonstrated using copper concentrate analysis.
Quantitative Analysis of Cast Iron using ZSX PrimusIII+
There are various types of cast irons such as grey cast iron, ductile cast iron and Ni-resist cast iron. Specific property of each cast iron is controlled by the concentrations of alloying elements. Therefore, the rapid elemental analysis of the alloying elements including carbon and silicon for controlling composition of molten metal in furnaces is crucial for the quality control in the cast iron production. In this application note it is demonstrated that the X-ray fluorescence spectrometer ZSX PrimusIII+ can cover all necessary elemental analyses from carbon for various kinds of cast iron and casting sand.
Quantitative Analysis of Stainless Steel using the ZSX PrimusIII+
This application note describes stainless steel analysis using the ZSX PrimusIII+ from Rigaku, which is optimized for process control. The results demonstrate that high precision and accurate analysis of the elements in stainless steel, especially for Ni and Cr, can be performed using the ZSX PrimusIII+. It is also possible to analyze low alloy steel and other high alloy steels.
Accurate Quantitative Analysis of Ferrosilicon by the Fusion Method Using ZSX PrimusIII
Ferrosilicon is one of the most basic materials in the steel making process. Iron alloys with a silicon content between 15 to 90% are called “ferrosilicon”. To control the steel making process, analyses of slag and raw materials such as quicklime are also required. This application note describes the accurate ferrosilicon analysis using the Rigaku ZSX PrimusIII+, which is optimized for steel making and ferrosilicon production process control.
Quantitative Analysis of Blast Furnace Slag by Fusion Method on the ZSX Primus III
Blast furnace slag is formed when iron ore or iron pellet, coke and flux are melted in a blast furnace. X-ray fluorescence spectrometers are the most common analysis tools to analyze powder samples in the iron and steel making process. This application note describes blast furnace slag analysis using the ZSX Primus III+, which provides a high precision and accuracy using the fusion method.
Rigaku Publishes Method for Quantitative Analysis of Ferrosilicon by WDXRF
Rigaku Publishes Method for Quantitative Analysis of Ferrosilicon by WDXRF
