Ragnar Metals has confirmed high-grade uranium mineralisation at surface over a 150m strike at its Klockartorpet Project in Sweden, revealing a 1km long uranium anomaly and multiple untested targets. The findings set the stage for further exploration and drilling plans.
- High-grade uranium assays up to 0.29% U3O8 from rock-chip samples
- 1km long uranium anomaly identified through reprocessed radiometric data
- Multiple additional uranium anomalies remain unassessed in the field
- Mineralisation linked to shear zones, hematite alteration, and elevated zirconium and hafnium
- Plans underway for further sampling, mineralogy studies, and permitting for shallow drilling
Exploration Breakthrough at Klockartorpet
Ragnar Metals Limited has delivered a promising update from its Klockartorpet Project in Sweden, confirming the presence of high-grade uranium mineralisation at surface. Recent rock-chip sampling and detailed fieldwork have identified uranium-bearing zones extending over 150 metres along a shear zone marked by hematite alteration. Assays from these samples returned uranium oxide (U3O8) grades as high as 0.29%, alongside elevated levels of zirconium and hafnium, hinting at a complex mineralogical system.
A 1km Long Anomaly and Untapped Potential
Beyond the immediate sampling area, reprocessing of publicly available radiometric data has revealed a uranium anomaly stretching approximately 1 kilometre. This suggests the mineralised shear zone could be significantly more extensive than initially observed. Moreover, the data highlights at least four additional uranium anomalies within the project area that have yet to be explored on the ground, presenting multiple new targets for Ragnar Metals.
Geological Insights and Mineralisation Style
The uranium mineralisation appears to be shear-hosted and closely associated with hydrothermal hematite alteration. The concurrent presence of elevated zirconium and hafnium is particularly intriguing, as it may indicate a genetic link to alkalic magmatic processes at depth. While this remains a working hypothesis, ongoing mineralogical studies aim to clarify the origin and nature of the mineralisation, which could have important implications for exploration strategy.
Next Steps – Sampling, Mineralogy, and Drilling
Ragnar Metals plans to intensify its exploration efforts with further rock sampling to evaluate the untested uranium anomalies. Concurrently, X-ray diffraction (XRD) analysis is underway to better understand the mineralogy of the uranium-bearing rocks. The company is also progressing permitting to enable shallow drilling and channel sampling, which will provide critical data on the width and continuity of the mineralised zones. These activities are designed to refine and prioritise drill targets ahead of the upcoming maiden drill program at Ragnar’s flagship Harnäs Gold Project.
Strategic Implications Amid Regulatory Changes
These exploration advances come at a timely moment, following Sweden’s recent lifting of its uranium ban. This regulatory shift opens the door for renewed uranium exploration and development in the region, potentially enhancing Ragnar Metals’ strategic positioning. The company’s ability to rapidly develop high-quality drill targets at Klockartorpet could complement its gold-focused assets and diversify its portfolio in a sector gaining renewed investor interest.
Bottom Line?
Klockartorpet’s expanding uranium footprint and regulatory tailwinds position Ragnar Metals for a pivotal exploration phase in 2026.
Questions in the middle?
- What will mineralogical studies reveal about the genesis of the uranium mineralisation?
- How extensive and continuous is the uranium mineralisation along the 1km anomaly?
- When will Ragnar Metals commence drilling, and what initial targets will be prioritised?