市場調查報告書
商品編碼
1378162
全球汽車 3D 列印市場:2018-2030 年按技術、材料、車型、應用和地區劃分的機會和預測Automotive 3D Printing Market Assessment, By Technology, By Material, By Vehicle Type, By Application, By Region, Opportunities and Forecast, 2018-2030F |
全球汽車3D列印市場規模預計將從2022年的22億美元成長到2030年的84.5億美元,預測期內複合年增長率為18.32%。
汽車產業越來越多地採用積層製造和 3D 列印來實現各種目的,包括原型設計、模具製造和最終零件製造。該技術提供了設計靈活性並縮短了交貨時間,有助於提高車輛效率和結構完整性。隨著燃油經濟性和排放變得越來越重要,3D 列印正在生產輕量零件,同時提高車輛效率。此外,3D列印使汽車製造商能夠定制汽車零件,特別是內飾件,讓客戶能夠個性化他們的汽車。隨著主要汽車公司推出最新版本的 3D 列印機,市場變得更加面向未來。
從地區來看,北美可望引領全球汽車 3D 列印市場。北美在擁抱和推進製造技術方面擁有豐富的經驗,例如將3D列印整合到汽車零件的生產中。美國眾多增材製造公司、新創公司和研究中心的存在為汽車製造中3D列印技術的開發和實施提供了堅實的基礎。
本報告調查了全球汽車 3D 列印市場,並提供了市場定義和概述、市場規模趨勢和預測、各個細分市場和地區的詳細分析、行業結構、影響市場成長的因素分析以及案例研究。 、主要公司簡介等
Global automotive 3D printing market size was valued at USD 2.2 billion in 2022, expected to reach USD 8.45 billion in 2030, with a CAGR of 18.32% for the forecast period between 2023 and 2030. The automotive industry increasingly adopts additive manufacturing or 3D printing for various purposes, including prototyping, tooling, and producing end-use components. The technology offers design flexibility and lead times, contributing to increased vehicle efficiency and structural integrity. As fuel efficiency and emissions become more important, 3D printing has produced lightweight components, enhancing vehicle efficiency. Additionally, 3D printing allows automakers to customize automotive components, particularly interior parts, allowing customers to personalize their vehicles. As automotive giants introduce updated versions of 3D printers, the market is becoming more future-oriented with such developments.
The largest European automotive manufacturer, Volkswagen Group, has recently procured a second 3D printer system from Additive Industries, a Netherlands-based metal 3D printing manufacturer. The acquisition represents a substantial investment in advancing parameter development and has been further bolstered with the integration of MetalFAB's powder load tool and powder recovery station, designed for maximum efficiency and waste reduction. The system is furnished with full-field laser technology and automated build change capabilities, enabling a high level of productivity, and streamlining operations. Volkswagen has opted to expand its lineup of MetalFAB systems due to the printer's remarkable automation features, eliminating manual processes and enhancing safety.
In addition to expediting the development of products, 3D printing plays a pivotal role in attracting new business. Many customers rely on this technology as it provides access to cutting-edge capabilities and the ability to manufacture components with the latest materials. One of the most notable advantages of 3D printing is its capacity to reduce the weight of vehicles. It is achieved by creating lightweight structures, which can be incorporated into various vehicle parts, ranging from interior panels to brackets and engine components. The reason being, 3D printing eliminates the necessity for subtractive manufacturing processes, which often result in overly engineered and heavier components instead, parts built layer by layer. This process permits the fabrication of intricate, optimized, lightweight designs. Furthermore, 3D printing empowers designers to employ computer algorithms to fashion components with precisely the right amount of material in the correct locations, resulting in lightweight and exceptionally durable components.
In August 2022, Czinger Vehicles, a company specializing in electric hypercars manufacturing using the Divergent Adaptive Production System (DAPS), introduced a 3D-printed gearbox case designed for the automotive sector. Czinger, renowned for crafting electric hypercars through the DAPS assembly approach, partnered with Xtrac, a UK-based automotive engineering company, to develop its pioneering gearbox case.
Artificial intelligence (AI) algorithms can generate and enhance intricate 3D designs. By considering various factors like material strength, mass, and the constraints of manufacturing, AI can produce innovative and efficient designs that might be challenging for human designers to envision. AI can recommend the most suitable materials for 3D printing, considering the specific requirements of automotive components, such as strength, durability, or heat resistance. AI-driven computer vision systems are capable of inspecting 3D-printed components in real-time. These systems are effective at identifying defects, deviations from design specifications, and surface irregularities, ensuring the quality and reliability of 3D-printed parts. Additionally, AI can monitor and predict maintenance needs for 3D printers, thereby reducing downtime and optimizing printer performance.
In February 2023, Czinger Vehicles accomplished the remarkable feat of getting robots to construct a hypercar. This groundbreaking achievement marked the creation of the first hypercar, which was designed and manufactured using artificial intelligence and 3D printing technology in Scottsdale. This groundbreaking hypercar is anticipated to have a price tag of USD 2 million. The vehicle's design was driven by artificial intelligence, and robotic systems orchestrated its assembly. Experts regard this innovative development as a glimpse into the future of hypercars.
Governments financially support universities, research institutes, and companies developing 3D printing technologies. They establish technology accelerators and incubators to provide resources, mentorship, and financial assistance for startups and companies. The funding stimulates innovation and accelerates industry progress through grants, subsidies, or R&D tax exemptions.
In May 2022, the United States government launched the Additive Manufacturing (AM) Forward program to expand the additive manufacturing industry in the country. The program is set to involve the government and prominent multinational corporations in providing financial support to a range of 3D printing projects, small and medium-sized enterprises (SMEs), and other businesses. The federal government is executing the AM Forward program in collaboration with the Non-Profit Applied Science and Technology Research Organization. The federal government is partnering with initial program participants like GE Aviation and Honeywell, along with major corporations including Lockheed Martin, Raytheon, and Siemens Energy, to drive initiatives promoting additive manufacturing in the United States.
The prototyping and tooling sector is set to dominate the market due to the rapid production of 3D printed prototypes, which accelerates time to market in the competitive automotive industry. This cost-effective method simplifies the iterative design process, allowing engineers to make multiple modifications and conduct multiple tests on parts, leading to improved designs and enhanced performance. The federal government is collaborating with early participants in the AM Forward program to promote additive manufacturing within the country.
In January 2023, Toyota, a renowned Japanese automotive multinational, disclosed how their adoption of Zortrax's 3D printing technology had streamlined their vehicle assembly processes. Toyota has harnessed Zortrax's M-Series 3D printing solutions to enhance its prototyping and tooling procedures. The integrated farm management software has made it well-suited for large-scale implementation. The system's compatibility with external filaments has extended its applications to various domains, including solar energy prototyping, and creating costumes inspired by the Cyberpunk genre.
North American is poised to lead the global automotive 3D printing market. North America has a rich history of embracing and advancing manufacturing technologies, including the integration of 3D printing into the production of automotive components and parts. The United States boasts one of the world's largest and most established automotive industries, with a diverse landscape of car manufacturers, suppliers, and research institutions, creating a conducive environment for the adoption of 3D printing within the automotive sector. The United States has a longstanding reputation for technological innovation and a supportive entrepreneurial culture, leading to numerous additive manufacturing companies, startups, and research centers in the country. This presence provides a solid foundation for developing and implementing 3D printing technologies in automotive production.
In August 2023, HartSmart Products unveiled an industrial 3D printer designed for the automotive, aerospace, and other sectors, labeled as "Made in USA".
The COVID-19 pandemic has left a deep mark on global supply chains, causing a scarcity of vital raw materials and 3D printing equipment. Consequently, manufacturers were grappled with sourcing critical components, temporarily interrupting 3D printer production. In line with many other sectors, automotive manufacturing exhibited the effect of initial pandemic weeks marked by lockdowns and a dip in consumer demand. The slump translated into reduced demand for 3D-printed automotive parts. Several 3D printing firms have invested in manufacturing PPE, ventilator components, and other essential medical supplies to support the healthcare industry's pressing needs. This shift away from automotive applications has momentarily disrupted the 3D printing market in the automotive sector.
The ongoing war has severely disrupted the global supply chain for 3D printing materials and components. The automotive 3D printing industry has faced increased costs, primarily due to the scarcity of raw materials, logistical challenges, and manufacturing facility limitations. Essential materials like metal powders, plastics, and other equipment are typically routed from Russia through Ukraine. Businesses often base their strategic decisions on geopolitical stability, and the uncertainties stemming from the Russia-Ukraine conflict have instilled caution in investing in emerging technologies, like automotive 3D printing. Furthermore, governments and organizations have diverted their resources and support away from specific industries or technologies during conflict, potentially impacting research and development initiatives in the 3D printing sector.
The competitive scenario in the automotive 3D printing market revolves around integrating cutting-edge technologies. Many companies combine artificial intelligence with their 3D printing technology to streamline printing. Organizations like 3ntr, Filament Innovations, and others are adopting this approach. Their systems are known for a straightforward "print-only" approach, free from excessive marketing or unnecessary features. Furthermore, companies are pursuing expansion strategies, including collaborations and acquisitions, to reinforce their market positions.
In October 2022, during a facility tour of GE's United States operations, GE's aerospace and additive manufacturing divisions unveiled their forthcoming 3D printing strategies. The tour offered insights into GE's vision for the future of industrial 3D printing. Over the past decade, GE has made substantial investments in 3D printing, including the acquisition of companies like Morris Technologies, Arcam, and Concept Laser.
In May 2022, Renishaw introduced a fresh lineup of 3D printing equipment, the RenAM 500 series. This series includes the RenAM 500S Flex, a single-laser 3D printer, and the RenAM 500Q Flex, a four-laser 3D printer. Notably, both systems incorporate a streamlined powder handling system designed to meet the requirements of research and development (R&D), pre-production, or bureau environments.
In February 2022, 3D Systems expanded its solution offerings by acquiring Titan Additive LLC, a prominent player in polymer extrusion technology. The strategic move is aimed at diversifying the options available to its customer base.
All segments will be provided for all regions and countries covered:
Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.