Hydro Extrusions Expanded Automotive Aluminum Semis Extrusion Capacity at Its Tønder Plant in Denmark According to foreign media reports, Hydro Extrusions recently officially commissioned a brand-new 12-inch, 60-meganewton extrusion press at its aluminum extrusion plant in Tønder, Denmark. The equipment had held its official inauguration ceremony in September 2025, becoming the centerpiece of the plant’s 50th anniversary celebrations. The multi-day event invited clients, suppliers, and both former and current employees to participate.

According to the investor relations activity record announced by Jintian Holdings on March 19 (March 10-12, 2026): 1. The Company’s 2025 earnings guidance and the reasons for the projected increase. Jintian Holdings replied: In 2025, the company implemented its “dual upgrade in products and clients” strategy, with product applications continuing to deepen in high-end fields; it stepped up expansion among clients outside China, and sales in markets outside China continued to grow; meanwhile, through digitalization initiatives, it improved operational and management efficiency, and the gross margin and profitability of its products improved YoY. The company expected net profit attributable to owners of the parent for 2025 to reach 700 million yuan to 800 million yuan, up 51.50%-73.14% YoY from the same period last year. 2. Progress of the company’s share repurchase. Jintian Holdings replied: From February 3, 2026 to February 28, 2026, the company had cumulatively repurchased 4,942,200 shares through centralized bidding, accounting for 0.29% of its current total share capital, with total funds paid of 56,676,944 yuan (excluding transaction costs). 3. The company’s industry position and competitive advantages. Jintian Holdings replied: The company had focused on the copper processing industry for 39 years and was one of the largest enterprises in China by scale and with the most complete industry chain. In 2024, the company achieved total production of 1.9162 million mt of copper and copper alloy materials, and its total production of copper semis ranked first globally. The company offered a wide range of copper products and could meet clients’ one-stop procurement needs for multiple categories of copper semis, including rods, tubes, plates and strips, and wires. Its copper products had been widely used in NEV, clean energy, communications technology, electrical power and equipment, chips and semiconductors, and other fields. At present, the company had developed a profound cultural heritage and outstanding organizational capability, with a significant market scale position and a global industrial footprint; it possessed leading manufacturing and R&D capabilities; it had built a specialized product matrix and formed a stable base of top-tier industry clients; and it had also established forward-looking green recycling technology barriers, laying a solid foundation for becoming a world-class base for copper products and advanced materials. 4. The capacity and business performance of the company’s rare earth permanent magnet products. Jintian Holdings replied: The company had entered the magnetic materials business in 2001. After more than 20 years of dedicated development, it had become one of the enterprises in China’s peer industry with relatively advanced technology and a well-developed product system. At present, the company had two magnetic material production sites in Ningbo and Baotou. Phase I of the Baotou site had commenced production, and the company’s annual capacity of rare earth permanent magnet materials had increased to 9,000 mt. The company was actively advancing the Phase II project at the Baotou site to further increase capacity to 13,000 mt. At the same time, through its newly established German subsidiary, the company accelerated its international expansion and increased its share in overseas markets. The company was among the first batch of enterprises to obtain a general export license for rare earth permanent magnet products, and it has continued to strengthen and advance export-related business. The company’s rare earth permanent magnet products are widely used in multiple high-end fields, including NEVs, wind power generation, high-efficiency energy-saving motors, robotics, consumer electronics, and medical devices. 5. The Company’s Business Development in the Chip Computing Power Sector. Jintian Co., Ltd. responded: With its outstanding electrical and thermal conductivity, copper has become a core material for advanced AI industry chip interconnects and heat dissipation in computing power facilities, and the transition of copper-based materials toward high value-added products has further accelerated. The company has a solid client base and technical reserves in the chip computing power sector, and it is also among the first companies globally to achieve large-scale supply of copper-based materials to leading enterprises in the above fields. Among them, the company’s high-precision special-shaped oxygen-free copper busbar products have been applied in multiple top-tier GPU cooling solutions of several global first-tier thermal module enterprises. Products independently developed by the company, such as copper heat pipes and liquid-cooling copper pipe & tube, have been supplied in batches for computing power server products of multiple top-tier enterprises. The company will closely monitor and follow market demand in the chip computing power sector, further improve its product portfolio, and enhance the competitive advantages of its products. 6. The Company’s Position Advantages and Business Achievements in the Secondary Copper Sector. Jintian Co., Ltd. responded: The company has continuously innovated new pathways for the green development of copper-based high-tech materials and has become one of the enterprises in China with the largest utilization of secondary copper and the highest comprehensive utilization rate. It is also one of the few companies in the global industry to achieve a closed-loop entire industry chain covering secondary copper recycling, purification, and deep processing. The company’s independently developed low-carbon secondary copper products significantly reduce carbon emissions while ensuring product performance, enabling it to provide downstream clients across the industry chain with high-quality, comprehensive one-stop green solutions for copper semis. In H1 2025, sales of the company’s green, high-end, low-carbon secondary copper products increased 61% YoY. Its product matrix now covers copper strip, copper wire, magnet wire, copper pipe & tube, copper busbar, copper billet, and more, and has been applied in fields such as high-end consumer electronics, the automotive industry, and electrical equipment. Specific applications include laptop cooling modules, mobile phone vibration motors, NEV power battery connections, and AC/DC power supplies. The products have achieved mass production in the products of multiple world-renowned clients, forming a new performance growth driver represented by “green low-carbon secondary copper products.” An investor asked on the investor interaction platform: Have the company’s copper billet products now become core supplies for top-tier enterprises such as DJI Innovation or EHang Intelligent?With the boom in the low-altitude economy’s payload flight market, have the company’s PEEK materials or high-strength copper alloys developed for drone motor bearings and airframe structural components seen explosive growth in orders? On March 19, Jintian Co., Ltd. stated on the investor interaction platform that the company had a solid client base and technical reserves in the low-altitude economy field. Among its products, high-precision free-cutting copper billet, with excellent properties such as high strength and wear resistance, had already been applied in airborne structural components of low-altitude aircraft. The company’s PEEK material products provide high-voltage drive stability technical solutions for the low-altitude economy’s payload flight market, and it had already carried out R&D cooperation with multiple top-tier enterprises in China. The company will closely monitor and follow market demand in the low-altitude economy field, further improve its product portfolio, and enhance its product competitive advantages. For specific related information, please refer to periodic reports. An investor asked on the investor interaction platform: Hello, Board Secretary. Recently, LME copper prices have risen sharply. Under the company’s strictly implemented hedging strategy, did this generate positive gains from closing positions during the reporting period, or was there a slight loss? Approximately how much was the amount? In addition, as the company’s revenue scale expanded, how well did net operating cash flow match net profit in 2025? Was there any cash flow strain caused by prepayments for raw material procurement? On March 19, Jintian Co., Ltd. stated on the investor interaction platform that the company’s copper processing products adopted a pricing model of “raw material prices + processing fee” and carried out hedging operations in strict accordance with the Hedging Management System to reduce the impact of raw material price fluctuations on the company’s net profit. At present, fluctuations in copper prices had a relatively small impact on the company’s operating performance. For specific related information, please refer to periodic reports. On March 18, when responding to investor questions on the interaction platform, Jintian Co., Ltd. stated that the company had continued to expand its technological leadership in high-voltage electromagnetic flat wire and had further advanced cooperation on new energy high-voltage electromagnetic flat wire projects with world-class OEMs and motor suppliers. As of H1 2025, the company had secured 23 new nominations for its 800V high-voltage platform for new energy drive motors, and had already achieved bulk supply for multiple projects, with the shipment share of high-voltage flat wire continuing to increase. For specific related information, please refer to periodic reports. On March 17, when responding to investor questions on the interaction platform, Jintian Co., Ltd. stated that, with its outstanding electrical and thermal conductivity, copper had become a core material for chip interconnection in the advanced AI industry and heat dissipation in computing power facilities. The company had a solid client base and technical reserves in the AI computing power field. Among its products, the company’s high-precision shaped oxygen-free copper busbar products had already been applied in multiple top-tier GPU cooling solutions of several first-tier thermal module enterprises worldwide. The company will closely monitor and follow market demand in the AI computing power sector, further improve its product portfolio, and enhance its competitive edge. For specific information, please refer to the periodic reports. On March 17, Jintian Co., Ltd. said in response to investor questions on an interactive platform that the company continued to expand its technological leadership in the high-voltage electromagnetic flat wire industry, with both the number of designated projects on high-voltage platforms and shipment volume continuing to grow. Among them, the company's 1,000V flat wire products for drive motors have become an industry benchmark as supporting materials for "megawatt flash charging" technology in the NEV sector, while client-related certification for 1,200V flat wire for drive motors was also progressing in an orderly manner. In addition, the company had a solid client base and sound technical reserves in the chip and semiconductor sector. The company will closely monitor and follow market demand in the chip and semiconductor sector, further improve its product portfolio, and enhance its competitive edge. For specific information, please refer to the periodic reports. On March 17, Jintian Co., Ltd. said in response to investor questions on an interactive platform that the company remained committed to advancing its internationalization strategy, and construction of its newly built Thailand production site was progressing smoothly. The company's copper semis products exported outside China had an overall relatively high gross margin. In H1 2025, revenue from its principal operations outside China was up 21.86% YoY and continued to maintain a solid growth trend. The steady growth of business outside China laid a solid foundation for the company to deepen the upgrading of its global product and client mix. For specific information, please refer to the periodic reports. Jintian Co., Ltd.'s 2025 earnings forecast showed that, based on preliminary estimates by its finance department, the company expected net profit attributable to owners of the parent for 2025 to reach 700 million to 800 million yuan, representing an increase of 237.9574 million to 337.9574 million yuan from the same period last year (statutorily disclosed data), up 51.50% to 73.14% YoY. Net profit attributable to owners of the parent excluding non-recurring gains and losses for 2025 was expected to reach 440 million to 528 million yuan, representing an increase of 101.4004 million to 189.4004 million yuan from the same period last year (statutorily disclosed data), up 29.95% to 55.94% YoY. Regarding the main reasons for the expected increase in results for the period, Jintian Co., Ltd. stated: In 2025, the company implemented its "dual upgrade of products and clients" strategy, with product applications in high-end fields continuing to deepen; it stepped up expansion among clients outside China, and sales in markets outside China continued to grow; meanwhile, through digitalization initiatives, it improved operating and management efficiency, and its product gross margin level and profitability improved YoY. On January 23, Jintian Co., Ltd. said in response to investor questions on an interactive platform that Phase I of its Baotou base had been put into operation, and the annual capacity of rare earth permanent magnets had been increased to 9,000 mt. The company is currently actively advancing Phase II of the Baotou base project, with the aim of further increasing capacity to 13,000 mt. The company has a solid client base and technical reserves in the robotics field, and some rare earth permanent magnets have already been applied in the robotics sector. The company will closely monitor and follow market demand in the robotics field, further improve its product portfolio, and enhance its product competitiveness. A performance preview commentary on Jintian Co., Ltd. for 2025 released by Aijian Securities showed that the share repurchase demonstrated confidence in long-term development, while capital structure optimization was advancing steadily. The company’s high-end copper-based materials were being introduced at an accelerated pace to clients outside China in the computing power cooling sector, with sales rising rapidly and profitability improving significantly. 1) In terms of profitability, processing fees for copper busbar used in computing power are relatively high, and product mix upgrades are expected to continue lifting the company’s gross margin level; 2) In terms of shipment progress, in H1 2025, sales of the company’s copper busbar products in the cooling sector increased 72% YoY, and its high-precision profiled oxygen-free copper busbar has entered GPU cooling solutions of multiple global first-tier cooling module enterprises. The company’s copper heat pipes, liquid-cooling copper pipe & tube, and other products have also achieved bulk supply in computing servers of multiple top-tier enterprises. Copper prices fluctuations had a limited impact on the company’s profitability. 1) The company adopts a “copper prices + processing fee” pricing model, with revenue and profit primarily derived from processing fees rather than copper prices themselves. Processing fees are negotiated between the company and clients based on factors such as product specifications and process complexity, and show a certain degree of historical stickiness; 2) The company effectively hedges copper prices through hedging, while fluctuations in upstream raw material prices are mainly borne by downstream customers, resulting in a relatively small impact on the company’s profit; 3) Rapid copper prices fluctuations may affect downstream ordering willingness in phases and lengthen order cycles, but copper application scenarios are characterized by rigid demand, so the impact on total demand is limited, only changing the pace of copper product orders, and the company’s overall operating stability remains strong. The company is actively expanding into the “aluminum as an substitute for copper” direction, with material substitution optimizing the gross profit structure while enhancing its ability to hedge against copper prices fluctuations. 1) On a per-mt basis, the absolute value of processing fees for aluminum products is usually lower than that of copper-based solutions (at the same performance level, processing fees for high-precision aluminum extrusion are about 10,000 yuan/mt, versus about 20,000 yuan/mt for copper semis); however, since the per-mt price of aluminum semis is significantly lower than that of copper, usually about one-fourth of the latter, the material cost base is lower, increasing the share of processing fees in total product value. The corresponding processing fee rate of aluminum-based solutions is about 13–14 pct higher than that of copper-based solutions, providing positive support to the company’s overall gross margin; 2) In terms of supply progress, the company’s electromagnetic flat aluminum wire and aluminum 3D bent busbars for vehicles have entered the certification and mass supply stage, while inner-grooved aluminum pipe & tube for air conditioners has already begun small-batch supply. Risk Warning: Risks of lower-than-expected downstream demand for new energy or capacity release, rising copper prices, and changes in trade policies outside China.

According to foreign media reports, the explosion at the Novelis aluminum rolling plant in Greensboro, Georgia, US, was a major industrial accident triggered by a baghouse dust collector malfunction. The plant is a leading enterprise in global aluminum recycling, mainly producing aluminum semis for beverage cans, with clients including Coca-Cola. - Time and Location: At around 5:00 p.m. local time on March 1, 2026 (Sunday), at the Novelis aluminum recycling plant on Willow Run Road in Greensboro, Georgia, US. - Incident Overview: A fire was sparked by a dust explosion in the baghouse, spreading to piles of aluminum scrap and conveyor belts, causing partial structural damage to the building; all 16 employees at the site evacuated safely, with no casualties.

[SMM Aluminum Price Weekly Review: Middle East Geopolitical Conflict Drove a Sharp Surge in Aluminum Prices; In the Short Term, Aluminum Prices Are Expected to Hold Up Well]

SMM, February 28th， Driven by the global clean energy transition, the energy storage industry is achieving steady growth. Its core value lies in effectively mitigating the inherent intermittency and volatility of renewable energy sources like wind and solar power, providing critical assurance for stable clean electricity output. This development trend will sustainably drive demand for key metals across the energy storage supply chain. As one of the core materials, aluminum applications in energy storage systems primarily focus on aluminum sheets, strips, foils, and extrusions. I. Scale of Aluminum Consumption in ESS According to SMM calculations, each 1GWh energy storage system consumes approximately 1,780 tons of aluminum , of which aluminum extrusions account for about 44%, aluminum sheets and strips account for about 39%, and aluminum foil accounts for about 18%. From the perspective of industry growth drivers, global energy storage cell production is entering a period of rapid growth: According to SMM estimates, the global demand for energy storage cells will be approximately 559 GWh in 2025, and is expected to reach 779 GWh in 2026, with a year-on-year increase of 39%; even as the base expands, the annual demand from 2027 to 2030 will still maintain a growth rate of over 20%. In terms of aluminum demand, Chinese enterprises dominate the energy storage market, driving increased domestic aluminum consumption. SMM research indicates China's energy storage battery cabinet shipments will reach approximately 400GWh in 2025, accounting for over 80% of global share. Based on SMM's calculation of 1,780 tons of aluminum per GWh for energy storage systems and global battery cabinet shipments, the global aluminum demand for energy storage systems in 2025 will reach 850,000 tons, with China consuming approximately 710,000 tons. Domestic demand for aluminum in energy storage is projected to increase by 280,000 tons in 2026. However, it should be noted that with the continuous iteration of large-cell technology, the unit consumption of aluminum structural components in energy storage systems has room for reduction. In the long term, there is still potential for optimizing aluminum consumption per unit. II. Calculation of Aluminum Profile Materials per Unit of ESS Due to design variations across different energy storage products, this section separates aluminum consumption calculations for energy storage cells from other system components . 1.Core Application Scenarios of Aluminum Materials in EES Aluminum materials, with advantages such as lightweight, corrosion resistance, and excellent processing performance, have been deeply integrated into the core components of ESS, with their main applications concentrated in three major areas: Energy Storage Cell Component: Primarily used for cell aluminum foil, aluminum casings, and tabs. Pack Component : Primarily used for battery trays, liquid cooling plates, battery end plates, and battery enclosures, etc. Energy Storage System Component: Main applications include energy storage system enclosures, radiators, etc. 2.Aluminum Consumption in Energy Storage Cells Aluminum usage in energy storage cells primarily involves battery foil, aluminum casings, and tabs. Currently, the aluminum consumption per cell is approximately 615t/GWh, with aluminum foil accounting for 300-330 t/GWh. 3.Aluminum Consumption in ESS Due to variations in technical approaches and application scenarios, different manufacturers employ distinct design solutions for energy storage systems. When calculating aluminum consumption, we use industry average values: In industrial, commercial, and residential energy storage projects, each rack is on average configured with 4.5 battery packs. In grid-side energy storage projects, each rack averages 8 battery packs, with each system containing an average of 12 rack. The aluminum components of the battery pack include the tray, liquid cooling plate, box body, and end plate. The structure of the battery tray is similar to that of new energy vehicle battery trays, but the product specifications are smaller and the cross-sectional design is more simplified. SMM calculates the aluminum consumption of a single battery pack based on the average weight data of components provided by mainstream aluminum production enterprises. In addition, the core equipment of the energy storage system, the power conversion system (PCS), and its supporting radiator also need to consume aluminum materials.While aluminum enclosures exist for ESS, market research indicates steel enclosures currently dominate the market, with aluminum enclosures holding less than 20% market share. The weight range per unit is from several hundred kilograms to 2 tons. Based on the above parameter calculations: the comprehensive aluminum consumption of industrial, commercial, and residential energy storage systems is 2030 tons/GWh,while for grid-side energy storage systems it is 1,720 tons/GWh. Weighted by the shipment share of different energy storage system types, the final comprehensive aluminum consumption for energy storage systems is calculated as 1,780 t/GWh. 4.Consumption Structure of Aluminum Materials in Energy Storage Systems From a production process perspective, the manufacturing methods for core components such as aluminum casings and liquid cooling plates encompass multiple pathways including sheet metal stamping, profile processing, and casting. This section breaks down the consumption structure of aluminum material categories in energy storage systems based on the proportion of mainstream process applications: aluminum extrusions account for approximately 44%, aluminum sheets and strips account for approximately 39%, and aluminum foil accounts for approximately 18%.

The Indonesian aluminum market remained stable during the 2026 Chinese New Year, with production unaffected and bauxite prices holding at USD 28–32 FOB amid RKAB uncertainty. Alumina prices also stayed steady at USD 308 FOB due to feedstock stability and a seasonal lull in Chinese buying activity.