Batteries
WDXRF enables precise control of composition ratios and trace impurities in battery materials. From cathodes and anodes to electrolytes and raw materials, it supports reliable performance from R&D through mass production.
Mining and refining
Accurate elemental analysis is essential across the mining process—from exploration to refining—to ensure efficiency and product quality. WDXRF spectrometry provides fast, precise, and non-destructive quantification of major and trace elements in rocks, ores, and concentrates. With high resolution and long-term stability, WDXRF supports consistent analysis from resource evaluation to final product assurance.
Petroleum and fuels
In the oil and petroleum industry, precise elemental analysis is essential for quality control, regulatory compliance, and process stability. WDXRF spectrometry provides fast, accurate, and non-destructive measurement of key elements such as sulfur, lead, nickel, and vanadium across crude oil, fuels, and lubricants. With superior sensitivity and repeatability, WDXRF supports reliable monitoring from production to final product certification.
Cement
Precise cement composition analysis is key to maintaining product quality and process stability. WDXRF provides fast, accurate, and non-destructive elemental analysis of raw materials, raw meal, clinker, and finished cement.
By enabling consistent monitoring of oxide ratios throughout the production process, WDXRF supports process control, reduces variability, and ensures uniform performance from feedstock to final product.
Ceramics & Glass
In the ceramics and glass industries, elemental composition directly affects thermal stability, optical properties, and product performance. WDXRF spectrometry provides fast, accurate, and non-destructive elemental analysis of raw materials, glass, refractories, and catalysts. With high resolution and stability, WDXRF supports reliable process control and quality assurance from formulation to final product inspection.
Metals
In the metals industry, precise elemental analysis is essential for process control, alloy composition verification, and quality assurance across raw materials and finished products. WDXRF spectrometry provides fast, accurate, and non-destructive quantification of major and trace elements in steels, alloys, and slags. Its superior resolution and stability enable consistent monitoring from ore to final metal products.
Environment
Environmental analysis requires reliable methods that can handle diverse materials such as soil, water, coal, and ash. WDXRF spectrometry offers fast, consistent, and non-destructive elemental analysis across both inorganic and organic samples. Its broad applicability and measurement stability make WDXRF a dependable tool for composition monitoring, contamination assessment, and resource evaluation in environmental laboratories.
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