News
Latest News
How Uncalibrated XRF Spectrometers Lead to Rejected Iron Ore Shipments
Every iron ore shipment leaves port with an analytical profile attached to it. Buyers rely on chemical assays to verify composition, determine cargo value, and confirm compliance with contractual specifications. When X-ray fluorescence (XRF) spectrometers operate without proper calibration, suppliers risk generating assay results that buyers later dispute. Results reported at the mine may differ from assays produced by independent laboratories, triggering delays, financial penalties, and costly-re-analysis at the port. What begins as a small calibration error inside the laboratory can ultimately escalate into rejected cargoes, commercial friction, and substantial logistical costs.
The Mechanics of Mismeasurement: Why Calibration Fails
The Drift Phenomenon
XR
...
Crucible Fatigue: How to Extend Platinum Labware Life in High-Volume Lithium Labs
Global demand for lithium has redefined the pace of analytical workflows, forcing laboratories into near-continuous fusion cycles that leave little margin for material fatigue. Platinum labware is central to lithium fusion workflows used in X-ray fluorescence (XRF) analysis, valued for its chemical inertness and thermal stability, but repeated exposure to extreme temperatures and reactive fluxes introduces a slow, less visible risk. Crucible fatigue develops incrementally, and as a primary component of platinum labware, it becomes a critical constraint for high-volume lithium labs. In their workflows, managing degradation is as vital as maintaining throughput and data quality. Extending platinum labware life thus becomes a matter of process optimisation, where the stresses driving fatigue in platinum cruc
...Using Fusion to Protect the Purity of Rare Earth Samples From Contamination
Fusion has become a critical tool for protecting the integrity of rare earth element (REE) samples, where even minor contamination in the sample matrix can influence analytical results. Much of this risk originates during sample preparation, when the material is most exposed to external interference. Common methods such as milling, acid digestion, and pellet pressing introduce variability through direct interaction with the sample. To remove these sources of uncertainty, fusion equipment converts the entire sample into a molten phase under controlled conditions, ensuring complete dissolution and forming a stable, homogeneous matrix for analysis.
The Contamination Risks of Traditional Methods
Traditional preparation techniques have long su
...View All Latest News ›