Announcement • Oct 10
Anortech Expands High-Purity Anorthosite Footprint At Gronne Bjerg Project in Greenland Anortech Inc. announced exceptional results of the 2025 field program on the Gronne Bjerg Anorthosite Project in Greenland. The program significantly expands the mapped size of the project and further confirms its potential as one of the world's most promising long-term sources of high purity, aluminum-bearing rock. This year's exploration focused on the mapping and sampling of previously unexplored areas of the Gronne Bjerg anorthosite complex. Results confirm the addition of continuous high purity anorthosite extending over 3.2 km in strike length, free from significant alteration or diking. Highlights include: Defined a 3.2 km surface extension of high purity anorthosite expanding the mapped footprint to 4.2 km x 2.3 km, with anorthosite exposed from sea level to 1,200 m elevation at the top of the mountain. Collected 30 representative samples from outcrop, analyzed by ALS (Ireland), returning average assays as follows: Al2O3: 31.9% Fe2O3: 0.94% Na2O: 1.8% CaO: 16.7% SiO2: 47.2% The consistently high purity and high-aluminum grades make Gronne Bjerg an ideal feed material for E-glass, sustainable aluminum applications and CO2 free cement. Environmental and Infrastructure Progress: Environmental Baseline Studies: WSP Denmark completed the second year of environmental baseline studies, including marine, terrestrial, and wildlife surveys. Combined with 2024's program data, these studies form the foundation for the project's Environmental Impact Assessment (EIA), which the Company expects to complete ahead of its 2026 exploitation license application. Port Access: Initial bathymetry studies have identified a potential deep-water port site only a few hundred meters from the potential mining area. This offers a unique logistical advantage, expected to reduce capital costs while minimize the project's environmental footprint. Announcement • Oct 08
AnorTech Inc., Annual General Meeting, Dec 02, 2025 AnorTech Inc., Annual General Meeting, Dec 02, 2025. Location: british columbia, vancouver Canada Announcement • Jun 04
AnorTech Inc. Announces Positive Results from Sustainable Cement R&D Program AnorTech Inc. announced the successful completion of the latest phase of its research and development (R&D) program focused on producing sustainable cement products using anorthosite from the Company's Gronne Bjerg Project in Greenland. The program, conducted by the Danish Technological Institute (DTI) in Copenhagen, focused on three high-pot potential product lines: Very low CO2 refractory cement, 3D printable anorthosite cement-based mortar formulations, and Very low CO2 concrete niche applications. DTI's testwork utilized 100% anorthosite in various size fractions, mixed with phosphoric acid (H3PO4) at varying concentrations to produce materials that were tested for performance across multiple applications. Fresh and mechanical properties were also evaluated to assess commercialization potential. Unlike Ordinary Portland Cement (OPC), AnorTech's process does not require clinker production, which emits approximately 0.9 tonnes of CO2 per tonne of OPC. As a result, AnorTech's cement applications can eliminate approximately 90% of CO2 emissions. Refractory Cement Testwork Highlights: Successfully cast anorthosite mortar prisms that withstanding multiple heating cycles at 1,200 degC for five hours without compromising structural integrity; Compressive strength was maintained, or even slightly increased, after thermal heating cycles with post-treatment strength exceeding 25.0 MPa; Two large slabs (10cm thick) were cast for extended refractory testing. One will be cut in half, with one half exposed to outdoor weathering for one year to assess long-term strength and microstructures evolution. 3D Printable Cement Testwork Highlights: More than 20 formulations were tested to determine the optimal mix for printability and structural buildability; The addition of viscosity-modifying admixture enhanced print quality and control; The program successfully printed multiple 3D structures, confirming proof of concept. 
