Brazilian iron ore pellet producer Samarco Mineração S.A. (hereinafter referred to as Samarco) disclosed on its official website that the Momento 3 production resumption phase continues to advance, with the target of restoring 100% installed capacity from 2028. Based on Samarco's previously disclosed current 60% capacity corresponding to approximately 15 million mt/year of pellets and iron ore fines, the 100% installed capacity is approximately 25 million mt/year. The Ubu industrial complex will be a key component of this round of production resumptions. According to Samarco's official website, the Ubu industrial complex located in Anchieta, Espírito Santo State, Brazil, plans to invest approximately 3.5 billion reais (approximately $700 million), primarily for the modernisation and production resumption of two pellet plants. The Ubu industrial complex has four pellet plants in total; the current phase has restored two pellet plants to operation, and the next step towards full production includes restoring Ubu Pellet Plants 1 and 2, along with advancing the beneficiation and filtration systems at the Germano mine. The company previously disclosed that the project will drive local industrial investment and employment growth, and lay the foundation for the subsequent full restoration of pellet capacity. The company is continuously investing in pellet production system upgrades, tailings filtration facility construction, and low-carbonisation operations. Samarco primarily produces iron ore pellets and iron ore fines for the steel industry. The company halted production following the tailings dam accident in 2015 and began gradually resuming operations in 2020. The modernisation and production resumption of the two Ubu pellet plants will increase Brazil's seaborne pellet and iron ore fines supply.

ArcelorMittal (AM) — 2025 Annual Report Summary ArcelorMittal, the world's second-largest steel producer, released its 2025 Annual Report in March 2026. During the year, the Group's steelmaking operations experienced a broad-based slowdown: crude steel output in Europe contracted sharply by 6.6% year-on-year, while volumes in India and Brazil also declined. Only North America recorded output growth, driven by the consolidation of an additional steelworks. These dynamics reflect softening apparent steel consumption (ASC) globally, compounded by intensifying competitive pressures. Nonetheless, the Mining segment delivered an outstanding performance — iron ore shipments from Liberia surged 37.5%, providing a meaningful offset to the headwinds in the steelmaking divisions. I. 2025 Key Production, Shipment & Financial Overview In 2025, ArcelorMittal demonstrated strong operational resilience against the backdrop of subdued global steel demand and complex trade barriers. Portfolio optimisation — notably the full consolidation of the Calvert flat-rolled finishing facility — and robust growth in the iron ore business were the key highlights of the year. Despite a marginal decline in crude steel production and shipments, net profit expanded materially, primarily driven by non-recurring items — in particular, a US$1.9 billion accounting gain arising from the acquisition of the remaining 50% equity interest in AMNS Calvert. The increase in net debt was principally attributable to the full consolidation of Calvert and other M&A activities. II. Segment Distribution & Operational Performance In 2025, ArcelorMittal's global operational footprint underwent significant structural reconfiguration, most notably through the full acquisition of the North American Calvert flat-rolling facility and the divestiture of non-core assets in Bosnia-Herzegovina, further optimising the Group's production and shipment mix. The following presents a detailed comparison of key segment production and shipment data for 2025 versus the prior year: North America The segment recorded growth in both output and shipments in 2025, primarily benefiting from the full consolidation of the AMNS Calvert facility in the second half of the year, and the recovery of Mexican production following the 2024 labour strike. Crude Steel Production: 7.8 Mt (2024: 7.5 Mt), up 2.9% YoY Steel Shipments: 10.3 Mt (2024: 10.1 Mt), up 2.2% YoY Key Development: The 1.5 Mtpa Electric Arc Furnace (EAF) at the Calvert facility was commissioned in June 2025, enhancing the supply capability of high value-added flat products in the region. 2026 Volume Outlook: Both production and shipments are expected to increase in line with broader regional trends. Growth Driver: The 1.5 Mtpa EAF at Calvert, consolidated in H2 2025, is currently in capacity ramp-up phase and will contribute incremental volumes in 2026. Brazil Despite margin pressure, the Brazil segment maintained highly stable production and shipment volumes, continuing to serve as a key profitability pillar for the Group. Crude Steel Production: 14.3 Mt (2024: 14.5 Mt), down 1.3% YoY Steel Shipments: 13.9 Mt (2024: 14.1 Mt), down 0.9% YoY Key Development: The Barra Mansa long products mill expansion was commissioned in H2 2025, adding 0.4 Mtpa of high value-added long steel capacity. 2026 Volume Outlook: Steel shipments are projected to reach 15.4 Mt in 2026, significantly above the 13.95 Mt recorded in 2025. Growth Driver: Despite demand headwinds in 2025 caused by elevated interest rates and a surge in Chinese imports, the Group holds an optimistic outlook for 2026 growth. Europe Affected by soft market demand and a planned major reline of Blast Furnace No. 4 at Dunkirk, European crude steel output contracted. However, the smaller decline in shipments indicates relatively resilient market penetration. Crude Steel Production: 29.2 Mt (2024: 31.2 Mt), down 6.6% YoY Steel Shipments: 28.4 Mt (2024: 28.7 Mt), down 0.9% YoY Key Development: The divestiture of the Zenica long products integrated steelworks in Bosnia-Herzegovina was completed in October, reflecting the Group's strategic transition toward lower-carbon assets. 2026 Volume Outlook: Shipments are expected to recover and grow. Growth Driver: As the EU Carbon Border Adjustment Mechanism (CBAM) and the revised Tariff Rate Quota (TRQ) regime progressively take effect in 2026, the Group anticipates European domestic steelmakers recapturing market share from import competition. India & Other Joint Ventures Focus on the strategic joint venture AMNS India (60% equity interest): Crude Steel Production: 7.2 Mt (2024: 7.5 Mt), down 4.5% YoY, impacted by market volatility in H1 and unplanned maintenance outages Steel Shipments: 7.9 Mt (2024: 7.9 Mt), shipments remained resilient Key Development: The Hazira integrated steelworks in India is being expanded to 15 Mtpa capacity. The Group has also announced a long-term greenfield project in Andhra Pradesh with an 8.2 Mtpa capacity target, with the objective of increasing hot-rolled coil (HRC) capacity to 15 Mtpa by H2 2026, providing incremental production and shipment uplift. Crude Steel Production (Other Subsidiaries): 4.3 Mt (2024: 4.6 Mt), down 6.52% YoY Mining The Mining segment was the Group's strongest growth engine in 2025, driven by the successful ramp-up of the Phase II expansion project in Liberia. Own Iron Ore Production (Mining segment only): 35.3 Mt (2024: 27.9 Mt), up 26.5% YoY Iron Ore Shipments: 36.3 Mt (2024: 26.4 Mt), up 37.5% YoY Key Development: Liberia achieved a record annual shipment of 10 Mt and is progressing steadily toward a 20 Mtpa production target. 2026 Mining Segment Outlook: Liberia (AML): Volume Target: 20 Mtpa shipment target. The Group specifically projects that by end-2026, as the Phase II expansion and the beneficiation plant continue to ramp up, annualised shipments will exceed 18 Mtpa (vs. 10 Mt in 2025). Key Progress: A blended production model combining sinter fines and concentrates from Phase II will support a significant increase in production and shipment volumes, with rail haulage capacity being expanded toward a 30 Mtpa annual throughput target. Canada (AMMC): Trend: Stable production maintained. The conversion of the high-grade iron ore pellet plant for Direct Reduced Iron (DRI) production is expected to be completed in Q2 2026. 2026 Production & Shipment Outlook Summary The 2025 production and shipment profile signals ArcelorMittal's strategic pivot toward quality over pure volume. Despite marginal fluctuations in crude steel output in Europe and Brazil, the growth from high value-added assets in North America and low-cost iron ore operations in Liberia is structurally rebuilding the Group's cost and margin base. The Group projects global apparent steel consumption (ASC) ex-China to grow by 2% in 2026. Against this macro backdrop, the Group forecasts an increase in steel production and shipments across all regions in 2026 compared to 2025, underpinned by improvements in operational efficiency and the positive impact of trade protection measures. III. Production Infrastructure & Process Technology Profile ArcelorMittal operates a highly diversified asset portfolio spanning the full upstream-to-downstream value chain — from iron ore mining to downstream finishing and processing. As of end-2025, the Group's production process structure is as follows: Process Mix: Basic Oxygen Furnace (BOF) output accounts for 74% (41.2 Mt); Electric Arc Furnace (EAF) accounts for 26% (14.4 Mt). Facility Scale: The Group currently operates 30 Blast Furnaces (BF) and 27 Electric Arc Furnaces (EAF) . Capacity Distribution: Europe remains the largest production base, with an annual crude steel capacity of 39.5 Mt (53% of total), followed by Brazil (16.4 Mt) and North America (12.5 Mt). IV. Raw Material Self-Sufficiency & Supply Chain Integration The Group maintains a high degree of vertical integration upstream and downstream to hedge against market volatility — a core pillar of its industrial competitive advantage: Iron Ore Supply: Own iron ore production grew 15.1% YoY to 48.8 Mt in 2025. Canada (AMMC) contributed 25.6 Mt, while Liberia (AML) surged to 9.7 Mt. Self-Sufficiency Rates: In 2025, the Group achieved an iron ore self-sufficiency rate of 72% , a coking coal self-sufficiency rate of 91% , and a scrap steel and Direct Reduced Iron (DRI) self-sufficiency rate of 55% . Logistics Capacity: The Group operates 18 deep-water port facilities and associated rail infrastructure, handling over 51 Mt of freight annually. V. Key Asset Restructuring & Industrial Portfolio Realignment 2025 was a year of deep portfolio optimisation for the Group — divesting weaker assets and concentrating resources in high-growth, high value-added operations. Full Consolidation of Calvert (USA): In June 2025, the Group completed the acquisition of the remaining 50% equity interest in AMNS Calvert (previously a joint venture with Nippon Steel Corporation) at a nominal consideration. The facility is the most advanced flat-rolled steel finishing complex in North America. The newly constructed 1.5 Mtpa EAF produced its first slab in June 2025. Asset Divestitures & Operational Rationalisation: Bosnia-Herzegovina: Completed the sale of the Zenica integrated steelworks and the Prijedor iron ore mine. South Africa: Rationalisation of the long products business and the idling of the Newcastle steelworks were completed by end of January 2026. India Expansion: AMNS India remains a core growth engine. The Hazira integrated steelworks is on track to expand capacity to 15 Mtpa by H2 2026. VI. Major Capital Project Progress (Capex Allocation) ArcelorMittal is currently in a dual capital expenditure cycle: EAF transition and upstream iron ore capacity expansion . Total capital expenditure in 2025 amounted to US$4.34 billion . VII. Decarbonisation Pathway & Industrial Technology Upgrade ArcelorMittal is at a critical juncture in its transition from conventional blast furnace-based integrated steelmaking toward low-carbon process routes: EAF Capacity Expansion: By end-2026, the Group expects to add 3.4 Mtpa of EAF capacity, spanning Gijón and Sestao in Spain, and Calvert in the USA. Key Technology Projects: The 2.0 Mtpa EAF project at Dunkirk, France (€1.3 billion investment) is planned for commissioning in 2029 and is expected to generate carbon emissions at approximately one-third of the level of a conventional blast furnace. Energy Transition: By end-2025, the Group had commissioned 1.6 GW of renewable energy equity capacity, with a further 1.2 GW under construction, primarily in India and South America, with the objective of supplying low-cost clean electricity to steelmaking operations. Carbon Footprint: Absolute carbon emissions declined 3.1% YoY in 2025, representing a cumulative reduction of 47% from the 2018 baseline. It is noteworthy that, given the limited commercial-scale deployment of low-carbon technologies (green hydrogen, Carbon Capture and Storage), the Group's emissions reductions are currently achieved primarily through portfolio restructuring and EAF electrification . VIII. Additional Key Information Portfolio Optimisation: Full Acquisition of Calvert: By acquiring NSC's 50% equity stake, ArcelorMittal has gained full operational control of North America's most advanced flat-rolled steel finishing complex. Exit from Non-Core Assets: The divestiture of the high-carbon-intensity integrated steelworks at Zenica, Bosnia-Herzegovina, and associated iron ore mines reflects a "decarbonise first, then grow" portfolio strategy. Operational Risks: Geopolitical Risk: The Kryvyi Rih steelworks in Ukraine (AMKR) is currently operating at only 35% of rated capacity , facing significant logistics and supply chain disruption. Trade Barriers: US Section 232 tariffs were raised to 50% in 2025, increasing the cost burden on cross-regional material flows. 2026 Outlook: Global apparent steel consumption (ASC) ex-China is projected to grow 2% . The Group's capital expenditure plan for 2026 is budgeted in the range of US$4.5–5.0 billion , with continued focus on the Liberia iron ore expansion and the electrification of process technology in Europe. Summary: 2025 was a year of "deepening asset quality" for ArcelorMittal. By converting its core North American joint venture Calvert into a wholly-owned subsidiary, and achieving successful delivery milestones at the Liberia iron ore mine and India's green energy projects, the Group further consolidated its vertically integrated competitive advantages. For investors, the sustainability of free cash flow generation and the recovery of market share under the EU CBAM framework remain the key monitoring indicators over the next one to two years.

[China Iron Ore Brief] Iron ore concentrates prices in west Liaoning remained relatively stable, with the current ex-factory price of 66-grade iron ore concentrates at 740 yuan/mt on a wet basis and tax-exclusive. On the mines and beneficiation plants side, the impact of safety and environmental protection inspections persisted, and overall iron ore concentrates resources remained relatively tight. On the steel mills side, most steel mills maintained normal production as planned, while individual steel mills recently began maintenance on their pellet plants, affecting demand for iron ore concentrates

【SMM Steel】Egypt's Suez Steel set a new energy-efficiency benchmark at its DRI plant using Tenova-Danieli's ENERGIRON ZR tech, the first large-scale industrial application. The plant operates with high metallization rates and direct hot feeding to the meltshop. Through continuous optimization, natural gas consumption has consistently been slightly below 2.2 Gcal/t for months. A recently commissioned captive pellet plant supplies high-quality pellets with optimal reducibility. The advances highlight Suez Steel's commitment to sustainable, cost-effective production.

【SMM Steel】RPCL signed with SMS group to build a 2 Mt/y compact pellet plant in Karnataka. SMS will handle basic engineering, equipment supply, and digital solutions, with delivery in 15 months. The digital suite will reduce human intervention and improve efficiency. RPCL aims to build a reliable resource base and sustainable development. The partnership marks a step forward in its growth strategy.

Over the past half-century of industrialisation, the global seaborne iron ore market took shape and solidified into a "duopoly" supply structure dominated by Australia's Pilbara region and Brazil's Carajás and Iron Quadrangle regions. However, with the evolution of macroeconomic cycles, the structural shift in China's economic growth momentum, and the historic imperative for the global steel industry to transition toward low-carbonisation and green development, this traditional supply landscape is undergoing an unprecedented reshaping. On November 26, 2025, as the first commercial vessel loaded with Simandou iron ore slowly departed Mabariya Port for the open sea, Guinea's Simandou iron mine officially commenced production. As the world's largest and highest-quality greenfield iron ore project, this milestone signalled the gradual rise of the African continent—long relegated to a secondary position—as an important emerging force in the global ferrous metals market. Why should we pay attention to the African market? The African continent's iron ore resources are regarded as the third most important region for global iron ore supply, after Brazil's Carajás region and Australia's Pilbara region. The sheer scale and high grade of its resources account for 13.8% of global iron ore resources. It is also set to be the primary supply-side growth driver over the next five years. Therefore, changes in African iron ore will long remain a key market determining international iron ore prices . This article provides a comprehensive analysis of the current status and landscape of African iron ore and select steel markets, offers an in-depth discussion of future development trends, and presents a data-driven outlook on market changes. I. Global Iron Ore Background According to SMM survey data, as of 2025, global iron ore production is estimated at approximately 2.472 billion mt. Of this, Africa contributed approximately 95 million mt, accounting for nearly 4% of total global production. With the successive commissioning of various large-scale mining projects, Africa's iron ore capacity is expected to double by 2030, reaching a scale of nearly 259 million mt. Assuming no production cuts in other regions, Africa-produced iron ore's global market share is expected to rise to nearly 10%, while the global iron ore market's oversupply is estimated to increase to approximately 220 million mt. (Chart-1: Balance Sheet) Although the international iron ore market has already entered a prolonged cycle of loose supply, the substantive supply shock from African iron ore is expected to materialise gradually only over the next five years. In the short term, based on an estimated 15 million mt of new African shipments in 2026, their outstanding high-grade characteristics are expected to quickly meet steel mills' current demand for low-carbon ore blending, allowing the market to absorb them smoothly, with a relatively mild impact on absolute international iron ore prices. The key point to watch will be from 2028 to 2029. As railway, port, and other infrastructure facilities still under development in Africa are fully connected, the surge in high-grade iron ore production will exert heavy downward pressure on the right side of the global iron ore cost curve. This will not only systematically push down the price center of iron ore but also trigger intense structural squeeze; that is, the survival space for low-grade, high-cost mines will be significantly compressed. This price downcycle is expected to persist through 2028. When international ore prices fall below the marginal cost support level of $90/mt, non-mainstream small mines on the far right of the cost curve will be forced to shut down and exit the market. By then, the global iron ore supply landscape will have completed a new round of reshuffle, re-forming a multi-oligopoly ecosystem dominated by ultra-large, low-cost mines (including new African mines), supplemented by quality mid-sized mines. (Chart-2: Price Forecast Curve) II. African Market Current Landscape: South Africa as the Dominant Leader with Multiple Strong Players, West African Countries Actively Expanding Having analyzed the foundation of the global iron ore market landscape, the focus will now shift to the overall situation in Africa. As the primary driving force behind supply growth over the next five years, Africa's iron ore production is concentrated in West Africa and South Africa. Currently, Africa is dominated by three major countries. Among them, South Africa is the largest producer, with production reaching approximately 67 million mt in 2025, and its export shipments firmly hold an absolute dominant position of approximately 65% of Africa's total iron ore exports. However, constrained by potential structural limitations, the future organic growth potential of South Africa's iron ore industry is relatively limited. As major iron ore projects in other emerging resource-rich African countries successively come into production and release capacity, South Africa's share in Africa's overall export market is expected to face sustained contraction. Next is Mauritania, as Africa's second-largest iron ore producer, with production of 15 million mt in 2025 and export volumes of approximately 12 million mt, accounting for 12% of the African market. Mauritania borders the Atlantic Ocean, possesses abundant high-grade iron ore deposits deep in the Sahara Desert, and enjoys exceptionally favorable geographic location and mineral resources. Moreover, it is within close proximity to European and Middle Eastern markets that urgently need green industrial raw materials, providing it with unique advantages for absorbing the global transfer of green metallurgical capacity. It will be a highly promising iron ore supplier in the future. In addition, Sierra Leone, as another important supply hub in the region, also has an expected production of 12 million mt in 2025, holding a stable share of approximately 12% in the African export market. Chinese-invested iron ore mines within the country are actively expanding their operations. Macro trade flow perspective, based on full-year 2024 trade data, the proportion of African iron ore shipped to the Chinese market was relatively low compared to traditional mainstream mining regions, accounting for only about 60%, while the broader Asian market encompassing China, Japan, and South Korea collectively absorbed approximately 70% of African iron ore shipments. Meanwhile, Western European countries represented by the Netherlands and Germany constituted the core secondary shipping destination for African iron ore, with a trade flow share of nearly 14%. The remaining marginal trade flows exhibited a diversified pattern, radiating broadly to emerging steel capacity clusters in the Middle East, including Bahrain, Oman, and Saudi Arabia. (Chart-3: African Iron Ore Market Overview) Enterprise level, Kumba Iron Ore and Assmang , both based in South Africa, became Africa's largest and second-largest iron ore producers with annual production of 37 million mt and 17 million mt, respectively. Kumba's mines such as Sishen are globally renowned for producing high-grade fines (>62%) and premium lump with excellent physical and metallurgical properties (Premium Lump, Fe 65.2%). Under the current trend of blast furnace emission reduction, this type of lump ore that can be directly charged into furnaces and reduce sintering carbon emissions has been highly sought after by the market, commanding a significant premium. Assmang also possesses high-quality iron ore assets, jointly controlled by African Rainbow Minerals (ARM) and Assore at a 50:50 ratio. Its Assmang fines and Assmang lump (grade at 64-65%) are also high-quality direct furnace charge materials. However, for this enterprise, the biggest bottleneck lies not at the pit head but on the rails. Heavy reliance on Transnet's rail shipping capacity means that logistics bottlenecks frequently cap its shipment volumes. SNIM (Société Nationale Industrielle et Minière de Mauritanie) is Mauritania's state-owned mining company and Africa's third-largest iron ore producer after the two South African companies. Unlike mainstream Australian and Brazilian ore, SNIM's products occupy a unique niche in terms of physicochemical specifications and market segmentation. Its most widely traded product is TZFC fines, characterized by extremely low aluminum (Al2O3) and phosphorus (P) content. As an excellent blending raw material, major steel mills prefer to blend SNIM ore fines with high-aluminum Australian fines (such as certain Pilbara blend ores) to significantly dilute the impurity ratio in furnace charge and optimize blast furnace performance. (Chart-4: Top-Tier Enterprises) III. Transformation of the African Market: Major Producing Countries May Stagnate While Emerging Projects Become Key Growth Drivers So where will future growth come from? According to SMM observations, the African market is expected to undergo significant structural changes over the next five years. Multiple large-scale iron ore projects across African countries are already under construction and plan to commence production before 2030. Based on estimates, Africa's iron ore supply is expected to grow substantially from approximately 95 million mt currently to 260 million mt over the next five years, representing a cumulative increase of up to 85%. The market landscape will also shift from South Africa-dominated exports led by Western players to Guinea-dominated exports. (Chart-5: African Market Production Trend) The primary growth driver will come from Guinea in West Africa. The country's renowned Simandou iron ore mine, jointly developed by multiple enterprises, is currently the world's largest undeveloped high-grade open-pit hematite deposit. With resource reserves exceeding 5 billion mt and a designed capacity of 120 million mt, it is the project with the greatest strategic potential to reshape the existing iron ore market landscape. Since the first ore shipment in late November 2025, as of Q1 2026, Simandou's main export port, Morebaya Port, has cumulatively shipped nearly 1.6 million mt. Blocks 1 and 2, developed under the leadership of the Winning Consortium Simandou (WCS), have been successfully commissioned, with 2026 capacity expected to be achieved and shipments expected to reach full production of 60 million mt within the next 2–3 years. Blocks 3 and 4, which are expected to commence production in Q1 2026, are led by Simfer (a Rio Tinto & Baowu joint venture) and are expected to ship 5 million mt of ore in 2026, reaching full production of 60 million mt over 30 months. In other words, Guinea is expected to reach 120 million mt before 2030, vaulting to become the world's second-largest iron ore project, behind only Brazil's S11D project (with a post-expansion designed capacity of 200 million mt, expected to commence production in 2030). Other countries such as Liberia, Gabon, Sierra Leone, and Congo Republic all have iron ore projects under development, with a combined capacity of approximately 46 million mt planned to commence production by 2030. The largest among these is the Tokadeh Phase II project (Tokadeh Phase II) in Liberia, owned by ArcelorMittal (AML), which is expected to commence production in H2 2026 and reach full production of 20 million mt capacity by year-end, with iron ore concentrate expected to exceed Fe 66%. Given that AML's steelmaking capacity in Europe cannot absorb such a massive increase in the short term, the majority of Tokadeh 's products are expected to flow into the international market for trading, exerting downward pressure on iron ore concentrate prices. Currently, the largest exporting country, South Africa, is expected to largely maintain its production within the range of 63–67 million mt, with a risk of slight decline. The primary reason is that South Africa's iron ore transportation is highly dependent on the heavy-haul railway line (TFR) from Sishen to Saldanha Port. In recent years, Transnet Freight Rail (TFR), under South Africa's national transport company Transnet, has seen a significant decline in transport capacity due to numerous issues including locomotive and rolling stock shortages, frequent cable theft, and prolonged underinvestment in infrastructure, resulting in severely reduced transportation capacity for major bulk commodities such as iron ore and coal. South Africa's largest iron ore mine, Kumba, in its 2025 year-end financial report released in February 2026, indicated that its total finished product inventories reached as high as 7.5 million mt , increasing rather than decreasing compared to 6.9 million mt at the end of 2024. As railway transport capacity failed to match mine production capabilities, major South African iron ore producers were forced to accumulate large inventories at mine sites. To prevent inventory overflow, miners had to proactively lower production guidance. Although miners have been working to address transportation issues, the deep-rooted railway problems are difficult to resolve in the short term. Beyond 2030, there is also Mauritania's SNIM strategic growth blueprint. In the first phase (Horizon 1), the company plans to raise annual capacity to 45 million mt by 2031 through implementing lean production, equipment and technology upgrades, and joint development of new reserves. Of this, 20 million mt will be absorbed by SNIM's own wholly-owned capacity, while another 25 million mt will be achieved through attracting international capital to form joint ventures. Furthermore, SNIM has even set its sights on 2045 (Horizon 3), formulating a long-term goal of raising annual capacity to 80 million mt . In addition, there is the MIFOR project in the DRC. On March 26, 2026, the DRC signed a relevant memorandum of understanding with China, and the MIFOR project was listed as a flagship project with priority support. The mine is estimated to hold cumulative resources of 15 billion to 20 billion mt, with an average grade exceeding 60%. Its potential scale is considered to be approximately 2.5 times that of the Simandou project in Guinea. The first phase of the project is expected to cost $28.9 billion, involving the construction of a heavy-haul freight railway combined with Congo River shipping, ultimately connecting to the Banana deep-water port on the Atlantic coast. Initial annual production is expected to be 50 million mt, with a long-term goal of expanding to 300 million mt per year . All these projects are destined to make Africa an indispensable source of iron ore supply in the future. (Chart-6: Selected African Iron Ore Projects) IV. Global Steel Industry Chain Transformation: Will Africa, as a Hub of High-Grade Ore, Empower DRI Production? Notably, most of Africa's currently operating and planned iron ore projects have an average total iron grade (Fe) largely above 65% , with extremely low impurity content. This scarce high-grade ore is an ideal raw material for the direct reduced iron (DRI) process. As the DRI-EAF green steel route gains traction in Europe, the US, and China, future demand for iron ore with grades of 65% and above will surge exponentially. This will confer an exceptionally high "grade premium" on major iron ore projects including South Africa's Kumba, Guinea's Simandou, and other mines coming into production in the future. In the long run, the pricing benchmark for iron ore is inevitably shifting away from the traditional Platts 62% index, and African miners will gain bargaining leverage when renewing long-term agreements, thereby reshaping the global industry chain profit distribution landscape. In line with the global carbon neutrality trend, international investors, encouraged by local governments, are actively deploying high-value-added processing facilities, including DRI plants and high-grade pellet plants, aiming to fully leverage Africa's abundant high-grade iron ore resources and enormous energy potential for DRI production. Based on SMM's observations, approximately 200,000kt of DRI capacity is expected to emerge in Africa by 2030. The largest project among them is an 8.1 million mt DRI complex located in Libya, a joint venture between Turkish steel mill Tosyali and Libya's national steel company. (Chart-7: African DRI Projects) As China advances its "dual carbon" goals, the steelmaking industry is undergoing corresponding adjustments. China has set out a strategic blueprint for carbon peaking by 2030 and carbon neutrality by 2060. The traditional high-carbon-emission long-process steelmaking route dominated by blast furnace-converter operations is facing extremely stringent capacity replacement policies and environmental protection regulations. Meanwhile, the global trade system is also accelerating the imposition of carbon costs — for example, the implementation of the EU's Carbon Border Adjustment Mechanism (CBAM) — compelling the global steel supply chain to accelerate its transition from the source toward a low-carbon or even zero-carbon "green steel" era. Under this irreversible transformation trend, the short-process route combining DRI with electric furnace (EAF) has become the most commercially feasible decarbonization pathway. To meet the surging global demand for green steel in the future, market forecasts indicate that by the 2030s, global DRI designed capacity will need to increase by hundreds of millions of metric tons. This dramatic expansion in production scale will profoundly reshape the global steel supply landscape. The share of traditional pig iron production will gradually decline, while low-carbon DRI supply will directly determine the competitiveness of major economies in the global green steel market. In particular, the "hydrogen metallurgy" technology, which uses green hydrogen to replace natural gas and coal for iron ore reduction, is widely recognized by the industry as the core to achieving ultimate zero-carbon steelmaking. (Chart-8: Reshaping of the Steel Industry Chain Under Green Transformation) Represented by world-class high-quality iron ore projects such as Simandou in Guinea, the gradual commissioning of these super mines is expected to inject over 100 million mt of high-grade iron ore supply into the global market annually, significantly alleviating the global shortage of DRI-grade ore. More critically, North Africa and West Africa possess solar and wind energy potential that is second to none globally, enabling large-scale green hydrogen production at extremely low costs locally. This perfect combination of "high-grade ore + affordable green hydrogen" has led multinational capital and steel giants to increasingly favor establishing DRI production lines directly on African soil, reducing iron ore locally into low-carbon Hot Briquetted Iron (HBI) that is convenient for transport, before shipping it to electric furnaces in Asia and Europe for smelting. As a result, Africa will formally transition from the old era to become an indispensable part of the green iron production chain.

Swedish mining group LKAB has announced the temporary shutdown of one of its pellet plants in Kiruna, effective from mid-April through November 2026. The suspension of operations is expected to reduce the company’s pellet shipments in 2026 by approximately 2 million tonnes. This move reflects operational adjustments aimed at managing maintenance cycles and aligning production with current European market demand, which has seen a slowdown in high-grade feedstock requirements as regional mills navigate the high costs of electricity and carbon levies.

【SMM Steel】Swedish miner LKAB will temporarily shut its KK3 pellet plant in Kiruna from mid-April to Nov 2026 due to changing rock mechanics requiring a revised mining sequence. The halt will cut iron ore deliveries by ~2 Mt this year. Affected staff will be reassigned rather than laid off. Output is expected to return to previous levels by 2027. The company is evaluating alternative mining areas.

Mesabi Metallics Company, backed by the Essar Group, announced on March 31, 2026, that it has secured a $520 million senior secured credit facility to complete its iron ore mine and pellet plant in Nashwauk, Minnesota. The project, which is in an advanced stage of development, is now on track to commence commercial operations in the third quarter of 2026. This facility is designed to produce 7 million tonnes of high-grade iron ore pellets annually, providing a critical domestic supply of feedstock for North American blast furnaces and future direct reduction plants.

【SMM Steel】SAIL selected Primetals Technologies to supply a new pellet plant, three 165-t ladle furnaces, and two 165-t RH degassers for its IISCO expansion. The 4.2 Mt/y pellet plant will use a 576-sqm straight-grate design. Primetals will also provide digitalization and key equipment. Secondary metallurgy gear will improve steel quality. Commissioning is set for 2029, enabling IISCO to produce HRC and API-grade steel.