• £12 million DRIVE35 grant will back Belfast magnet recycling plant supporting UK automotive and advanced manufacturing
• Project targets 400 metric tons of high purity separated rare earth oxides annually to reduce reliance on foreign imports
• Funding aligns with UK domestic critical minerals strategy and electric vehicle market industrialization
The United Kingdom awarded £12 million ($16.4 million) in capital support for a Belfast rare earth magnet recycling facility operated by Ionic Rare Earths, advancing its push to build strategic supply chains for electric vehicles and advanced manufacturing while reducing dependence on imported critical minerals.
The offer, announced Tuesday by the Australia-listed company, will be provided through the government’s DRIVE35 initiative following due diligence and final conditions. DRIVE35 is designed to accelerate industrialization of zero-emission vehicle technologies and strengthen upstream inputs required for the shift to electric mobility.
Push for Domestic Critical Minerals by 2035
London has set an objective to foster domestic capacity across rare earths, magnets, and associated value chains by 2035. The strategy mirrors efforts in Europe, the United States, and parts of Asia, where governments are racing to secure minerals essential to defense, semiconductors, transport, and energy transitions.
The Ionic Technologies facility in Belfast holds a strategic position in that policy mix. Magnet recycling reduces reliance on mining while reclaiming rare earth elements such as neodymium and dysprosium that are largely processed in China today. Those materials are essential to permanent magnet motors used in EV drivetrains, robotics, turbines, and aerospace.
Ian Constance, CEO of Advanced Propulsion Centre UK, a funding partner within DRIVE35, said: “The development of a commercial rare earth permanent magnet recycling plant in Belfast will support the UK’s automotive and advanced manufacturing industries.”
Financing Structure and Industrial Ambitions
The grant contributes to a planned £85 million financing package for the plant. Ionic Rare Earths said multiple parties are in discussions for the remaining balance, reflecting investor interest in downstream magnet infrastructure and circular solutions for critical minerals.
Capital availability will influence construction timelines, commissioning, and integration with UK-based component manufacturers. The investment also aligns with efforts to localize high-value segments of the EV supply chain beyond battery cell manufacturing, extending into motors, magnets, recycling technologies, and specialty materials.
The Belfast plant is expected to produce roughly 400 metric tons of high purity separated magnet rare earth oxides annually using Ionic’s long-loop recycling process. For analysts and procurement executives, the ability to separate and refine material domestically matters as much as the overall tonnage. Refining capacity remains the choke point for most non-Chinese supply chains.
RELATED ARTICLE: Veolia Invests $90 M in UK’s First Closed-Loop Recycling Plant
Governance and Policy Dimensions
Critical minerals have moved from technical niche to geopolitical priority. Governments are expanding procurement incentives, export controls, strategic reserves, and recycling schemes. The UK’s approach links industrial decarbonization with national security and trade competitiveness, framing supply chains as infrastructure rather than commodity segments.
Initiatives like DRIVE35 also connect industrial strategy to automotive climate goals. Electric vehicles require more magnets and specialty materials per unit than internal combustion engines. Supply concentration risk can translate into cost instability, manufacturing delays, or downstream ESG scrutiny.
From a governance standpoint, recycled magnets bring lifecycle benefits including lower carbon intensity and reduced environmental disruption relative to primary mining. Recycling supports circularity targets aligned with EU and UK environmental policy frameworks and offers investors a clearer carbon accounting narrative for Scope 3 emissions.
Investor and C-suite Takeaways
For C-suite executives and procurement heads, Belfast’s project is notable for three reasons: first, magnet separation and refining inside the UK narrows supply risk at a critical point in the value chain. Second, the public grant reduces capital intensity for a sector historically viewed as commercially marginal. Third, policy support is shifting from research pilots toward commercial-scale recycling and processing facilities, which can influence capital market behavior.
The financing structure and offtake arrangements will be watched closely by automakers, Tier 1 suppliers, and EV strategy teams. If Ionic secures the remainder of its funding on competitive terms, it could help benchmark commercial feasibility for similar facilities across Europe.
Global Context
The UK is not alone. The US Inflation Reduction Act, EU Critical Raw Materials Act, and Japan’s industrial policy all target rare earth diversification through mining, processing, and recycling. China still dominates refinement and magnet production, making regional diversification a climate and trade issue as much as an industrial one.
Belfast’s recycling project fits within that global contest. If successful, it will add new capacity to a constrained market, support EV decarbonization goals, and reinforce the geopolitical realignment of strategic minerals. With EV sales still projected to rise through the decade, competition for secure and ESG-compliant rare earth supply chains is likely to intensify.
Follow ESG News on LinkedIn
The post Ionic Rare Earths Secures $16 Million for Belfast Magnet Recycling Plant appeared first on ESG News.
