Next generation fusion technology has arrived with the launch of two new models, xrFuse 1 and xrFuse 2. Based on decades of experience in fusion technology and hundreds of installations of xrFuse machines worldwide. Featuring absolute process flexibility, higher maximum fusion temperatures, advanced labware cooling and streamlined maintenance.

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A poorly prepared sample is what stands between X-Ray Fluorescence (XRF) analysis and the delivery of trustworthy results. Recognised for its ability to perform rapid, non-destructive multi-element analysis, XRF is a highly reliable technique for determining the elemental composition of solid, liquid, or powdered materials across industries such as mining, metallurgy, cement production, chemicals, and environmental monitoring. However, the accuracy of the results gathered from XRF depends on how well a sample is prepared. Proper sample preparation ensures a sample’s physical and chemical uniformity, minimizing analytical errors like matrix effects, particle size bias, and contamination. When each stage of XRF sample preparation is carefully managed, the risk of analytical errors i

Titration has long been a staple of chemical analysis, but the demands of current workflows have outgrown traditional single-purpose instruments. Combined titration systems offer a smarter way to manage multiple analytical tasks within a unified framework. Rather than isolating measurements, they streamline the process, improving consistency, reducing handling time, and allowing operations to run with greater precision and efficiency. These improvements illustrate what makes combined titration systems a valuable asset in today’s analytical environments.

What Is a Combined Titration System?

A combined titration system integrates multiple wet chemistry techniques into a single, streamlined workflow. It enables laboratories to carry out titration

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