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市场调查报告书
商品编码
1813435
2032 年铝镁压铸市场预测:按产品、製程、材料、压铸设备、应用、最终用户和地区进行的全球分析Aluminium & Magnesium Die Casting Market Forecasts to 2032 - Global Analysis By Product, Process, Material, Die Casting Equipment, Application, End User and By Geography |
根据 Stratistics MRC 的数据,全球铝镁压铸市场预计在 2025 年达到 60 亿美元,到 2032 年将达到 97.6 亿美元,预测期内的复合年增长率为 7.2%。
铝镁压铸是一种製造工艺,将熔融的铝或镁合金在高压下注入钢模(称为压铸模),以製造精密、复杂且轻量化的金属零件。此製程可确保零件的高强度、卓越的尺寸精度和良好的表面光洁度,广泛应用于汽车、航太、电子和工业机械等行业。该技术支援对大规模生产、成本效益和轻量材料日益增长的需求。
家用电器的采用率不断提高
消费性电子产品对轻质、耐用性和高导热性能材料的需求日益增长,推动了铝和镁压铸件在消费性电子产品中的应用。随着设备变得越来越紧凑和性能越来越密集型,製造商开始转向压铸以实现精度和扩充性。智慧型手机、笔记型电脑和穿戴式装置越来越依赖铸造外壳和结构部件来优化外形规格和散热性能。智慧家庭设备和物联网设备的普及进一步加速了这一趋势。此外,对美观饰面和坚固设计的追求使压铸成为首选。电子领域日益增长的信心正在推动更大的市场渗透和合金配方的创新。
铸造大型零件的技术限制
儘管压铸工艺具有诸多优势,但在生产大型或复杂零件时仍面临诸多限制,尤其是在汽车和工业应用中。孔隙率、尺寸不稳定和冷却效率低下等问题限制了扩充性在大型零件上的可扩展性。这些技术障碍通常需要二次或替代工艺,从而增加了生产时间和成本。此外,对高压系统和专用工具的需求也增加了大型铸造作业的复杂性。製造商在批量生产中也面临合金相容性和结构完整性方面的挑战。因此,在重型应用中采用压铸製程仍需谨慎,这阻碍了市场扩张。
对可回收和永续材料的需求不断增加
环境法规和消费者意识正在推动产业向可回收、低碳材料迈进,将铝和镁压铸定位为永续的解决方案。这两种金属都具有出色的可回收性,且机械性能不会显着降低,使其成为循环製造模式的理想选择。汽车和电子产业越来越多地采用这些合金来满足排放目标和生态标籤标准。节能炉和闭合迴路回收等绿色铸造技术的创新正在提升永续性。此外,轻量化优势有助于提高燃油效率并减少运输应用中的碳足迹。性能与永续性的融合正在为各个地区开闢新的成长途径。
来自替代製造方法的竞争
积层製造、射出成型和精密加工等新兴技术正在挑战压铸在某些应用领域的主导地位。这些方法提供了更大的设计灵活性、更快的原型製作速度和更低的模具成本,尤其适用于小批量或客製化零件。随着3D列印在金属性能方面的进步,它在复杂形状和快速迭代方面对传统铸造技术提出了挑战。射出成型,尤其是采用高性能聚合物的注塑成型,在电子和汽车内装领域越来越受欢迎。此外,数控加工可为关键零件提供卓越的表面光洁度和严格的公差。这种竞争格局迫使压铸企业进行创新,否则将面临在利基市场被取代的风险。
新冠疫情扰乱了全球供应链和生产计划,影响了各行各业的压铸业务。停工和劳动力短缺导致生产週期延迟,运转率降低。汽车和电子产品的需求最初有所下降,但随着远距办公和电动出行趋势的加速,需求有所回升。这场危机凸显了对有韧性的在地化供应链和灵活生产的需求。为此,许多公司投资于自动化和数位监控,以稳定未来的营运。
预计引擎零件市场在预测期内将占据最大份额
由于引擎零件在汽车製造中发挥着至关重要的作用,预计将在预测期内占据最大的市场份额。为了提高燃油经济性和热性能,轻质合金在引擎缸体、缸头和变速箱壳体中的使用正在增加。严格的排放法规和电气化趋势正促使原始设备製造商 (OEM) 用铝铸件和镁合金替代品取代较重的钢製零件。这些零件对尺寸精度和耐用性有很高的要求,因此压铸成为首选方法。合金成分和铸造技术的不断创新正在扩大其在内燃机 (ICE) 和电动车 (EV) 平台上的适用性。因此,预计引擎相关铸件将保持其整体市场份额。
预计预测期内契约製造部门的复合年增长率最高。
在外包趋势和成本优化策略的推动下,契约製造领域预计将在预测期内实现最高成长率。汽车、电子和工业领域的原始设备製造商 (OEM) 正越来越多地与铸造专家合作,以简化其营运。这些製造商提供可扩展的生产、先进的模具能力和快速的交货时间,使其在量产和精密零件方面具有吸引力。电动车和智慧型设备的兴起推动了对能够适应不断变化的设计需求的敏捷供应商的需求。此外,合约公司正在投资自动化和品管,以满足全球标准。这种向策略外包的转变正在加速市场扩张。
预计亚太地区将在预测期内占据最大市场份额,这得益于其强劲的製造业生态系统和不断增长的工业产出。中国、印度和日本等国家是汽车和电子产品的主要生产中心,推动了铸件的需求。政府推广轻量材料和节能技术的措施进一步推动了相关技术的采用。该地区拥有经济高效的劳动力、丰富的原材料和不断扩张的基础设施。快速的都市化和家用电器的广泛普及也促进了市场的成长。
预计北美在预测期内的复合年增长率最高。该地区的汽车产业正在积极向电动车转型,对轻量化、高性能铸件的需求不断增长。航太和国防工业也正在将镁合金应用于结构和重量关键型应用。对自动化、基于人工智慧的品管和数位铸造的投资正在提高生产效率。此外,围绕可回收性和碳排放的监管压力正在加速材料替代。这种创新主导的环境使北美成为压铸解决方案的高成长地区。
According to Stratistics MRC, the Global Aluminium & Magnesium Die Casting Market is accounted for $6.00 billion in 2025 and is expected to reach $9.76 billion by 2032 growing at a CAGR of 7.2% during the forecast period. Aluminium and Magnesium Die Casting refers to a manufacturing process where molten aluminium or magnesium alloys are injected under high pressure into steel molds, known as dies, to create precise, complex, and lightweight metal components. This process ensures high strength, excellent dimensional accuracy, and superior surface finish, making it widely used across industries such as automotive, aerospace, electronics, and industrial machinery. The technique supports mass production, cost-efficiency, and the growing demand for lightweight materials.
Increasing adoption in consumer electronics
The rising integration of aluminium and magnesium die-cast components in consumer electronics is driven by demand for lightweight, durable, and thermally efficient materials. As devices become more compact and performance-intensive, manufacturers are turning to die casting for precision and scalability. Smartphones, laptops, and wearables increasingly rely on cast housings and structural parts to optimize form factor and heat dissipation. The proliferation of smart home devices and IoT-enabled gadgets further accelerates this trend. Additionally, the push for aesthetic finishes and ruggedized designs makes die casting a preferred choice. This growing reliance across electronics segments is expanding market penetration and driving innovation in alloy formulations.
Technical limitations in large component casting
Despite its advantages, die casting faces constraints when producing large or complex components, especially in automotive and industrial applications. Issues such as porosity, dimensional instability, and cooling inefficiencies limit scalability for oversized parts. These technical hurdles often require secondary machining or alternative processes, increasing production time and cost. Moreover, the need for high-pressure systems and specialized tooling adds complexity to large-scale casting operations. Manufacturers also struggle with alloy compatibility and structural integrity at larger volumes. As a result, adoption in heavy-duty sectors remains cautious, slowing broader market expansion.
Growing demand for recyclable and sustainable materials
Environmental regulations and consumer awareness are pushing industries toward recyclable and low-carbon materials, positioning aluminium and magnesium die casting as a sustainable solution. Both metals offer excellent recyclability without significant degradation in mechanical properties, making them ideal for circular manufacturing models. Automotive and electronics sectors are increasingly adopting these alloys to meet emissions targets and eco-labeling standards. Innovations in green casting techniques, such as reduced energy furnaces and closed-loop recycling, are enhancing sustainability credentials. Additionally, lightweighting benefits contribute to fuel efficiency and lower carbon footprints in transport applications. This convergence of performance and sustainability is unlocking new growth avenues across regions.
Competition from alternative manufacturing methods
Emerging technologies such as additive manufacturing, injection molding, and precision machining are challenging the dominance of die casting in certain applications. These methods offer greater design flexibility, faster prototyping, and reduced tooling costs, especially for low-volume or customized parts. As 3D printing advances in metal capabilities, it threatens traditional casting for intricate geometries and rapid iteration. Injection molding, particularly with high-performance polymers, is gaining traction in electronics and automotive interiors. Moreover, CNC machining provides superior surface finishes and tight tolerances for critical components. This competitive landscape is prompting die casters to innovate or risk displacement in niche segments.
The COVID-19 pandemic disrupted global supply chains and manufacturing schedules, impacting die casting operations across sectors. Lockdowns and labor shortages led to delayed production cycles and reduced capacity utilization. Automotive and electronics demand initially declined, but rebounded as remote work and e-mobility trends accelerated. The crisis highlighted the need for resilient, localized supply chains and flexible manufacturing setups. In response, many firms invested in automation and digital monitoring to future-proof operations.
The engine componentssegment is expected to be the largest during the forecast period
The engine componentssegment is expected to account for the largest market share during the forecast period, due to its critical role in automotive manufacturing. Lightweight alloys are increasingly used in engine blocks, cylinder heads, and transmission housings to enhance fuel efficiency and thermal performance. Stringent emission norms and electrification trends are driving OEMs to replace heavier steel parts with cast aluminium and magnesium alternatives. These components require high dimensional accuracy and durability, making die casting a preferred method. Continuous innovation in alloy composition and casting techniques is expanding applicability across ICE and EV platforms. As a result, engine-related castings will maintain a stronghold in overall market share.
The contract manufacturerssegment is expected to have the highest CAGR during the forecast period
Over the forecast period, the contract manufacturerssegment is predicted to witness the highest growth rate, driven by outsourcing trends and cost optimization strategies. OEMs across automotive, electronics, and industrial sectors are increasingly partnering with specialized casting firms to streamline operations. These manufacturers offer scalable production, advanced tooling capabilities, and rapid turnaround times, making them attractive for high-volume and precision parts. The rise of EVs and smart devices is fueling demand for agile suppliers who can adapt to evolving design requirements. Additionally, contract firms are investing in automation and quality control to meet global standards. This shift toward strategic outsourcing is propelling their market expansion at an accelerated pace.
During the forecast period, the Asia Pacific region is expected to hold the largest market share, driven by robust manufacturing ecosystems and rising industrial output. Countries like China, India, and Japan are major hubs for automotive and electronics production, driving demand for cast components. Government initiatives promoting lightweight materials and energy-efficient technologies are further boosting adoption. The region benefits from cost-effective labor, abundant raw materials, and expanding infrastructure. Rapid urbanization and consumer electronics penetration also contribute to market growth.
Over the forecast period, the North America region is anticipated to exhibit the highest CAGR, fuelled by technological advancements and sustainability mandates. The region's automotive sector is aggressively transitioning toward EVs, creating demand for lightweight, high-performance castings. Aerospace and defense industries are also adopting magnesium alloys for structural and weight-sensitive applications. Investments in automation, AI-driven quality control, and digital foundries are enhancing production efficiency. Additionally, regulatory pressures around recyclability and carbon emissions are accelerating material substitution. This innovation-led environment is positioning North America as a high-growth region for die casting solutions.
Key players in the market
Some of the key players in Aluminium & Magnesium Die Casting Market include Ryobi Limited, Gibbs Die Casting, Nemak, Alteams Group, Dynacast International, Mino Industry USA, Endurance Technologies, Form Technologies, Shiloh Industries, Guangdong Hongtu Technology, GF Casting Solutions, Rane Group, Ahresty Corporation, Pace Industries, Sundaram Clayton, Alcoa Corporation, Castwel Auto Parts, and Sandhar Technologies.
In July2025, Nemak, S.A.B. de C.V. announced that it has entered into a definitive agreement to acquire theautomotive business of GF Casting Solutions, a Swiss-based leader in lightweight castedcomponents. This strategic acquisition will represent a key milestone in Nemak's efforts to accelerate itstransformation beyond ICE powertrain components and broaden its global footprint.
In February 2025, Architect Equity a private equity group focused on the lower middle market, is pleased to announce the acquisition of Gibbs Die Casting Corporation ("Gibbs"), a leading manufacturer of precision die-casted, machined and assembled products for the automotive and industrial markets, from Koch Enterprises, Inc. Terms of the transaction were not disclosed.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.