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    3D Printing Market Trends

    ID: MRFR/SEM/0525-HCR
    110 Pages
    Aarti Dhapte
    October 2025

    3D Printing Market Research Report Information By Component (Hardware, Software & Services), Application (Prototyping, Tooling & Functional Parts), Printer Type (Desktop 3D Printer & Industrial 3D Printer), Technology (Stereolithography, Fused Deposition Modeling, Selective Laser Sintering, Direct Metal Laser Sintering & Others), Software (Design Software, Printer Software, Scan...

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    Market Trends

    Key Emerging Trends in the 3D Printing Market

    The growing use of 3D printing for large-scale production is a new trend that is spreading quickly through the industry. Once only used for testing, 3D printing is now a useful tool for making large quantities of things thanks to progress in science and materials technology. A lot of people in the aircraft and car businesses now use 3D printers. It accelerates the production of intricate parts much more quickly and at a much lower cost than traditional methods. Due to changing customer tastes, the 3D printing market is quickly seeing a rise in the trend of customization. Customer preferences for customized goods are growing across all fields. One way that 3D printing helps medicine is by making it easier to make implants and other devices that fit each patient's body. In the consumer goods business, personalized phone cases and home decor items are another thing that has become very popular. This exciting trend in many places around the world has made 3D printing a major force in the age of custom manufacturing. This fits with the fact that customers want one-of-a-kind items more and more. One of the most important things that has always shaped the 3D printer market is new materials. Not too long ago, most people used and saw a lot of standard plastics. That being said, more and more new materials like metals, clay, and safe materials are taking their place. The ability to print with these new materials makes 3D printing more useful in areas that need certain materials. Stability is another important issue in the 3D printer business. This is because lots of companies are now trying to find eco-friendly products to use in their work. It goes without saying that 3D printing uses fewer resources than traditional ways of making things, which often result in a lot of waste. It is good for companies that want to be more eco-friendly because additive manufacturing doesn't make a lot of waste. 3D printing services have had a huge effect on the world market since they became so popular. Businesses and people can both use these easy-to-find, reliable options, so there's no need to make big expenses up front. Service companies offer on-demand 3D printing, which lets customers use the technology without having to buy and maintain a machine.

    Author
    Aarti Dhapte
    Team Lead - Research

    She holds an experience of about 6+ years in Market Research and Business Consulting, working under the spectrum of Information Communication Technology, Telecommunications and Semiconductor domains. Aarti conceptualizes and implements a scalable business strategy and provides strategic leadership to the clients. Her expertise lies in market estimation, competitive intelligence, pipeline analysis, customer assessment, etc.

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    FAQs

    How much is the 3D printing market?

    The 3D printing market size was valued at USD 13.33 billion in 2024.

    What is the growth rate of the 3D printing market?

    The market is projected to grow at a CAGR of 19.24% during the forecast period, 2025 to 2035.

    Which region held the largest market share in the 3D printing market?

    Europe had the largest share of the market

    Who are the key players in the 3D printing market?

    The key players in the market are 3D Systems, Inc., Netherlands Organization for Applied Scientific Research, NATURAL MACHINES, Choc Edge, Systems & Materials Research Corporation, ORD Solutions Inc, and PancakeBot LLC.

    Which component led the 3D printing market?

    The hardware category dominated the market in 2022.

    Which application had the largest market share in the 3D printing market?

    The prototyping had the largest share in the market.

    Which printer type led the 3D printing market?

    The beverage category dominated the market in 2022.

    Which technology had the largest market share in the 3D printing market?

    The store based had the largest share in the market.

    Which software led the 3D printing market?

    The beverage category dominated the market in 2022.

    Which vertical had the largest market share in the 3D printing market?

    The store based had the largest share in the market.

    Which material led the 3D printing market?

    The metal category dominated the market in 2022.

    Market Summary

    As per MRFR analysis, the 3D Printing Market Size was estimated at 13.33 USD Billion in 2024. The 3D Printing industry is projected to grow from 15.9 in 2025 to 92.38 by 2035, exhibiting a compound annual growth rate (CAGR) of 19.24 during the forecast period 2025 - 2035.

    Key Market Trends & Highlights

    The 3D Printing Market is experiencing robust growth driven by customization and technological advancements.

    • North America remains the largest market for 3D printing, showcasing a strong demand for innovative applications.
    • Asia-Pacific is emerging as the fastest-growing region, fueled by increasing investments in advanced manufacturing technologies.
    • The hardware segment continues to dominate the market, while services are rapidly gaining traction as a key growth area.
    • Market drivers such as increased demand for prototyping and advancements in material science are propelling the industry's expansion.

    Market Size & Forecast

    2024 Market Size 13.33 (USD Billion)
    2035 Market Size 92.38 (USD Billion)
    CAGR (2025 - 2035) 19.24%
    Largest Regional Market Share in 2024 Europe

    Major Players

    <p>Stratasys (US), 3D Systems (US), Materialise (BE), HP (US), EOS (DE), GE Additive (US), Siemens (DE), Formlabs (US), Carbon (US)</p>

    Market Trends

    The 3D Printing Market is currently experiencing a transformative phase characterized by rapid technological advancements and increasing adoption across various sectors. Industries such as aerospace, automotive, and healthcare are integrating additive manufacturing techniques to enhance production efficiency and reduce costs. This shift towards customization and on-demand production is reshaping traditional manufacturing paradigms, allowing for greater design flexibility and innovation. Furthermore, the growing emphasis on sustainability is driving the development of eco-friendly materials and processes, which could potentially redefine the market landscape. In addition, the rise of digital fabrication technologies is fostering collaboration between designers and engineers, leading to more innovative applications. As organizations recognize the potential of 3D printing to streamline supply chains and minimize waste, investment in research and development is likely to increase. The convergence of artificial intelligence and 3D printing may also enhance design capabilities, suggesting a future where automated systems play a crucial role in production. Overall, the 3D Printing Market appears poised for substantial growth, driven by technological integration and evolving consumer demands.

    Customization and Personalization

    The trend towards customization in the 3D Printing Market is gaining momentum, as consumers increasingly seek tailored products. This shift allows manufacturers to create unique items that cater to individual preferences, enhancing customer satisfaction. Companies are leveraging additive manufacturing to produce bespoke solutions, which may lead to a more personalized consumer experience.

    Sustainability Initiatives

    Sustainability is becoming a focal point within the 3D Printing Market, as businesses strive to reduce their environmental impact. The development of biodegradable materials and energy-efficient processes indicates a growing commitment to eco-friendly practices. This trend not only addresses consumer concerns but also aligns with regulatory pressures for greener manufacturing.

    Integration of Advanced Technologies

    The integration of advanced technologies, such as artificial intelligence and machine learning, is transforming the 3D Printing Market. These innovations enhance design processes and optimize production efficiency, potentially leading to faster turnaround times and reduced costs. As these technologies evolve, they may redefine the capabilities of additive manufacturing.

    <p>The Global 3D Printing Market is poised for transformative growth as industries increasingly adopt additive manufacturing technologies to enhance production efficiency and customization capabilities.</p>

    U.S. Department of Commerce

    3D Printing Market Market Drivers

    Cost Reduction in Manufacturing

    Cost efficiency remains a pivotal driver in the 3D Printing Market, as organizations strive to minimize production expenses. The technology enables manufacturers to produce complex geometries and customized products without the need for extensive tooling or assembly processes. This capability not only reduces material waste but also lowers labor costs, making it an attractive option for businesses. Recent analyses suggest that companies utilizing 3D printing can achieve up to 70% savings in production costs compared to traditional methods. As industries continue to seek ways to enhance profitability, the adoption of 3D printing technologies is expected to grow, reinforcing its significance in the manufacturing landscape.

    Advancements in Material Science

    The evolution of material science plays a crucial role in the 3D Printing Market, as new materials expand the capabilities of 3D printing technologies. Innovations in polymers, metals, and composites enable the production of stronger, lighter, and more durable components. This diversification of materials allows for applications in sectors such as healthcare, where biocompatible materials are essential for creating medical devices and implants. Furthermore, the introduction of sustainable materials aligns with the growing emphasis on eco-friendly practices. As material options continue to expand, the potential applications of 3D printing are likely to broaden, driving further growth in the market.

    Increased Demand for Prototyping

    The 3D Printing Market experiences a notable surge in demand for rapid prototyping across various sectors. Industries such as automotive, aerospace, and consumer goods are increasingly adopting 3D printing technologies to accelerate product development cycles. This shift allows companies to create prototypes more efficiently, reducing time-to-market and costs associated with traditional manufacturing methods. According to recent data, the prototyping segment is projected to account for a substantial share of the 3D printing market, indicating a robust growth trajectory. As businesses seek to innovate and respond to consumer needs swiftly, the reliance on 3D printing for prototyping is likely to intensify, further solidifying its role in the market.

    Integration of Advanced Technologies

    The integration of advanced technologies, such as artificial intelligence and the Internet of Things, is transforming the 3D Printing Market. These technologies enhance the efficiency and capabilities of 3D printing processes, enabling smarter manufacturing solutions. For instance, AI can optimize design processes and predict maintenance needs, while IoT facilitates real-time monitoring of production. This convergence of technologies is expected to streamline operations and improve product quality, making 3D printing more appealing to manufacturers. As industries increasingly adopt these advanced technologies, the 3D printing market is likely to experience accelerated growth, driven by enhanced operational efficiencies and innovative applications.

    Customization and Personalization Trends

    The demand for customization and personalization is a significant driver in the 3D Printing Market. Consumers increasingly seek unique products tailored to their preferences, prompting manufacturers to adopt 3D printing technologies that facilitate bespoke designs. This trend is particularly evident in sectors such as fashion, jewelry, and consumer electronics, where personalized items command premium prices. Market data indicates that the customization segment is expected to witness substantial growth, as businesses leverage 3D printing to meet individual customer needs efficiently. The ability to produce one-of-a-kind products not only enhances customer satisfaction but also fosters brand loyalty, making it a vital aspect of the market.

    Market Segment Insights

    By Type: Hardware (Largest) vs. Services (Fastest-Growing)

    <p>In the 3D Printing Market, the 'Type' segment reveals a diversified landscape where hardware holds the largest share. This includes various 3D printers and their components which play a crucial role in the production process. Contrastingly, services have emerged as the fastest-growing segment, indicating a shift in market dynamics as more businesses seek support in design and manufacturing processes. Furthermore, software supports both segments, providing essential tools for the design and management of 3D printed products. Growth trends indicate that the hardware segment, while still dominating the market, faces increasing competition from software and services. As more industries adopt 3D printing technology, the demand for associated services like maintenance, training, and design optimization is surging. This trend is accelerated by advancements in software that improve efficiency and ease of use, fostering wider adoption and transforming how businesses integrate 3D printing into their operations.</p>

    <p>Services: Dominant vs. Software: Emerging</p>

    <p>In the 3D Printing Market, hardware remains a dominant force with established players driving innovation and delivering high-performance machines tailored for various applications, from prototyping to mass production. Services are emerging as a critical aspect, providing a range of solutions from technical support to consulting on best practices in 3D printing. Meanwhile, software is rapidly evolving, offering sophisticated tools that enhance design capabilities and streamline workflow processes. As companies increasingly recognize the potential of 3D printing, the combination of hardware, software, and services will play a pivotal role in shaping the market, ensuring that businesses can leverage the full benefits of this transformative technology.</p>

    By Application: Prototyping (Largest) vs. Functional Parts (Fastest-Growing)

    <p>The 3D printing market's application segment is primarily dominated by prototyping, capturing the largest share due to its wide acceptance across industries such as automotive, aerospace, and consumer goods. Prototyping enhances design flexibility and accelerates time-to-market, making it a preferred choice among manufacturers. Functional parts are emerging as a significant player in the market, gaining traction for their ability to produce end-use parts that meet specific requirements, a trend driven by advancements in material science and technology.</p>

    <p>Prototyping (Dominant) vs. Functional Parts (Emerging)</p>

    <p>Prototyping remains the dominant application in the 3D printing landscape, favored by numerous industries for product development and iterative design processes. The advantages of rapid prototyping, such as cost-effectiveness and time savings, have led to its widespread adoption. In contrast, functional parts are rapidly emerging, fueled by the demand for customized components that can withstand operational stresses. This sub-segment benefits from innovations that enable 3D printing of high-performance materials, positioning functional parts as a critical focus area for future growth. Manufacturers increasingly leverage these capabilities to optimize production efficiency and reduce waste.</p>

    By Printer Type: Desktop 3D Printer (Largest) vs. Industrial 3D Printer (Fastest-Growing)

    <p>In the 3D Printing Market, desktop 3D printers currently hold the largest share, driven by their accessibility and affordability for both hobbyists and small businesses. They cater to a diverse range of applications from prototyping to educational purposes, making them a popular choice among individual users and educational institutions. Meanwhile, industrial 3D printers are rapidly gaining traction due to their advanced capabilities and suitability for large-scale production, appealing to various sectors such as aerospace, automotive, and healthcare.</p>

    <p>Printer Type: Desktop 3D Printer (Dominant) vs. Industrial 3D Printer (Emerging)</p>

    <p>The dominant desktop 3D printer segment is characterized by its user-friendly design, compact size, and low cost, which have made it a staple for personal users and educational institutions alike. These printers are favored for their versatility, allowing users to experiment with different materials and designs with relative ease. In contrast, the industrial 3D printer segment is viewed as emerging but is experiencing significant growth due to the need for rapid prototyping and production efficiency in professional environments. Industrial printers are equipped with advanced technology and capabilities, enabling them to handle complex geometries and high-volume production, thus appealing to large manufacturers looking to innovate and improve their production workflows.</p>

    By Technology: Stereolithography (Largest) vs. Fused Deposition Modeling (Fastest-Growing)

    <p>In the 3D printing market, Stereolithography (SLA) holds the largest market share, primarily due to its superior precision and capability to deliver high-quality prototypes and end-use parts. Stereolithography is widely adopted in industries such as aerospace, healthcare, and automotive due to its ability to create intricate designs with smooth finishes. In contrast, Fused Deposition Modeling (FDM) is becoming the fastest-growing technology segment, driven by its affordability and ease of use. FDM is popular among hobbyists and small businesses, making it accessible for various applications.</p>

    <p>3D Printing Technology: Stereolithography (Dominant) vs. Fused Deposition Modeling (Emerging)</p>

    <p>Stereolithography, known for its precision and fine detail, dominates the 3D printing technology landscape, serving industries that require high-strength and intricate models. It utilizes a UV laser to cure liquid resin layer by layer, ensuring high accuracy, making it ideal for producing prototypes and intricate designs. Conversely, Fused Deposition Modeling has gained traction as an emerging player in the market, appealing particularly to education and home-based users due to its low cost and simple operation. FDM technology uses thermoplastic filaments to create objects layer by layer, resulting in quick production and less complexity compared to SLA, positioning it as a favorable choice for rapid prototyping and small-scale manufacturing.</p>

    By Software: Design Software (Largest) vs. Printer Software (Fastest-Growing)

    <p>The software segment in the 3D printing market has been characterized by a diverse range of products, notably dominated by design software, which holds the largest share. This segment includes applications that facilitate the creation and optimization of 3D models, catering to various industries such as automotive, healthcare, and consumer goods. On the other hand, printer software is witnessing rapid growth, processing commands and managing workflows essential for effective production, appealing to manufacturers looking to enhance efficiency and precision. As technological advancements continue to shape the landscape of 3D printing, design software remains at the forefront, empowering designers and engineers to innovate extensively. Simultaneously, the increasing adoption of automated solutions is propelling the demand for printer software, which enhances operational efficiencies. The push towards streamlined production processes, coupled with the rise in user-friendly software platforms, is expected to further accelerate growth across these segments in the coming years.</p>

    <p>Design Software: Dominant vs. Printer Software: Emerging</p>

    <p>Design software serves as the backbone of the 3D printing process, enabling intricate modeling and precise adjustments that are essential for successful print outcomes. As the dominant force, it is widely adopted across various industries, owing to its critical role in enhancing product quality and reducing time-to-market. Conversely, printer software is emerging as a vital component by focusing on improving the user experience and streamlining the printing operations. This segment is evolving quickly, driven by innovations that integrate real-time monitoring and data analytics, appealing to manufacturers seeking competitive advantages. While design software continues to lead, printer software presents a compelling case for growth as businesses prioritize automated and efficient production mechanisms.</p>

    By Vertical: Industrial 3D Printing (Largest) vs. Desktop 3D Printing (Fastest-Growing)

    <p>In the 3D Printing Market, the Industrial 3D Printing segment leads in terms of market share, embodying a significant portion of the overall market due to its extensive applications across various industries such as aerospace, automotive, and healthcare. This segment benefits from investments in advanced technologies and large-scale production capabilities that cater to the needs of enterprises, thus enabling it to maintain a dominant presence. On the other hand, Desktop 3D Printing, while smaller in market share, showcases rapid growth as it becomes increasingly accessible for educational institutions and hobbyists, catering to the rising demand for personalized products and prototypes.</p>

    <p>3D Printing: Industrial (Dominant) vs. Desktop (Emerging)</p>

    <p>Industrial 3D Printing is characterized by its focus on large-scale manufacturing, utilizing high-performance materials and advanced printing technologies like selective laser sintering and direct metal laser sintering. This segment appeals mostly to businesses looking to optimize production, reduce waste, and enhance product innovation. Conversely, Desktop 3D Printing is emerging rapidly, primarily due to affordability and user-friendliness. It leverages technologies such as fused deposition modeling, gaining traction among enthusiasts and smaller firms that seek to prototype or customize products without significant investment. Both segments cater to distinct market needs, underscoring the versatility of the 3D printing landscape.</p>

    By Material: Polymer (Largest) vs. Metal (Fastest-Growing)

    <p>In the 3D Printing Market, the material segment is primarily dominated by polymers, which hold the largest share due to their versatility and cost-effectiveness. Companies are increasingly adopting polymer materials for their capability to produce detailed and intricate designs with relative ease. Metals are emerging as a strong contender, thanks to their durability and suitability for industrial applications, driving a robust growth trajectory within the market.</p>

    <p>Polymer (Dominant) vs. Metal (Emerging)</p>

    <p>Polymers have established themselves as the dominant force in the 3D printing market, favored for applications in prototyping and end-use parts due to their lightweight nature and customization potentials. Common types include thermoplastics like ABS and PLA, which allow for rapid production cycles and wide accessibility. Conversely, the metal segment, while bearing a smaller market share, is rapidly emerging as a formidable player, driven by advancements in technology like selective laser melting. This growth is propelled by industries demanding high-performance components, particularly in aerospace and automotive sectors, leading to a greater focus on metal 3D printing solutions.</p>

    Get more detailed insights about 3D Printing Market Research Report- Forecast 2032

    Regional Insights

    North America : Innovation and Leadership Hub

    North America is the largest market for 3D printing, holding approximately 40% of the global share. The region's growth is driven by advancements in technology, increasing adoption across various industries, and supportive government initiatives. The demand for customized products and rapid prototyping is also on the rise, further fueling market expansion. Regulatory frameworks are evolving to support innovation, ensuring safety and quality standards are met. The United States leads the North American market, with significant contributions from Canada and Mexico. Key players such as Stratasys, 3D Systems, and HP are headquartered here, fostering a competitive landscape. The presence of research institutions and universities enhances innovation, while collaborations between industry and academia drive the development of new applications. The market is characterized by continuous investment in R&D, ensuring North America remains at the forefront of 3D printing technology.

    Europe : Emerging Market with Growth Potential

    Europe is the second-largest market for 3D printing, accounting for around 30% of the global share. The region's growth is propelled by increasing demand for additive manufacturing in sectors like aerospace, automotive, and healthcare. Regulatory support from the European Union encourages innovation and standardization, which is crucial for market expansion. Initiatives aimed at sustainability and reducing waste are also driving the adoption of 3D printing technologies. Leading countries in Europe include Germany, the UK, and France, with Germany being the largest market. The competitive landscape features key players like EOS and Siemens, alongside numerous startups focusing on niche applications. The presence of strong industrial bases and a skilled workforce enhances the region's capabilities in 3D printing. Collaborative efforts between businesses and research institutions are fostering innovation, ensuring Europe remains a significant player in the global market.

    Asia-Pacific : Rapid Growth and Adoption

    Asia-Pacific is witnessing rapid growth in the 3D printing market, holding approximately 25% of the global share. The region's expansion is driven by increasing investments in technology, a growing manufacturing sector, and rising demand for customized products. Countries like China and Japan are leading the charge, supported by government initiatives aimed at promoting advanced manufacturing technologies. The regulatory environment is gradually evolving to accommodate the unique challenges of 3D printing. China is the largest market in the region, with significant contributions from Japan and South Korea. The competitive landscape is marked by a mix of established players and emerging startups, focusing on various applications from industrial to consumer products. Key players such as Materialise and Formlabs are making strides in the region, while local companies are also gaining traction. The focus on innovation and collaboration is expected to drive further growth in the coming years.

    Middle East and Africa : Untapped Potential and Growth

    The Middle East and Africa represent an emerging market for 3D printing, accounting for about 5% of the global share. The region's growth is driven by increasing awareness of additive manufacturing benefits, coupled with investments in infrastructure and technology. Countries like the UAE and South Africa are leading the way, with government initiatives aimed at fostering innovation and attracting foreign investment. The regulatory landscape is still developing, but there is a growing recognition of the need for standards and guidelines. The competitive landscape is characterized by a mix of local and international players, with companies exploring various applications in sectors such as healthcare, construction, and aerospace. The presence of key players is gradually increasing, and collaborations between governments and private sectors are fostering a conducive environment for growth. As the region continues to invest in technology and education, the potential for 3D printing is expected to expand significantly.

    Key Players and Competitive Insights

    The 3D Printing Market is currently characterized by a dynamic competitive landscape, driven by rapid technological advancements and increasing demand across various sectors, including aerospace, healthcare, and automotive. Key players such as Stratasys (US), 3D Systems (US), and HP (US) are strategically positioning themselves through innovation and partnerships. Stratasys (US) focuses on enhancing its product offerings through continuous R&D, while 3D Systems (US) emphasizes expanding its service capabilities to cater to diverse customer needs. HP (US) is leveraging its expertise in digital manufacturing to penetrate new markets, thereby shaping a competitive environment that is increasingly reliant on technological differentiation and customer-centric solutions.

    In terms of business tactics, companies are localizing manufacturing to reduce lead times and optimize supply chains, which appears to be a critical strategy in the current market. The competitive structure of the 3D Printing Market is moderately fragmented, with several players vying for market share. However, the collective influence of major companies like GE Additive (US) and EOS (DE) is significant, as they drive innovation and set industry standards, thereby impacting the overall market dynamics.

    In August 2025, GE Additive (US) announced a partnership with a leading aerospace manufacturer to develop advanced metal 3D printing solutions. This collaboration is poised to enhance the production capabilities of both entities, allowing for the creation of lightweight components that could revolutionize aircraft design. The strategic importance of this partnership lies in its potential to accelerate the adoption of additive manufacturing in the aerospace sector, which is increasingly focused on sustainability and efficiency.

    In September 2025, Materialise (BE) launched a new software platform aimed at streamlining the 3D printing workflow for medical applications. This initiative is particularly noteworthy as it addresses the growing demand for customized medical solutions, enabling healthcare providers to leverage 3D printing technology more effectively. The introduction of this platform signifies Materialise's commitment to innovation and its strategic focus on the healthcare sector, which is expected to expand significantly in the coming years.

    In October 2025, Carbon (US) unveiled a new line of 3D printers designed for high-volume production, targeting the consumer goods market. This move is indicative of Carbon's strategy to diversify its product offerings and cater to a broader audience. By focusing on high-volume applications, Carbon aims to position itself as a leader in the consumer goods segment, which is increasingly adopting 3D printing technologies for rapid prototyping and production.

    As of October 2025, current trends in the 3D Printing Market are heavily influenced by digitalization, sustainability, and the integration of artificial intelligence. Strategic alliances among key players are shaping the competitive landscape, fostering innovation and enhancing operational efficiencies. Looking ahead, it is likely that competitive differentiation will evolve from traditional price-based competition to a focus on technological innovation, supply chain reliability, and sustainable practices, as companies strive to meet the demands of an increasingly discerning market.

    Key Companies in the 3D Printing Market market include

    Industry Developments

    • Q2 2024: Stratasys and Desktop Metal Announce Termination of Merger Agreement Stratasys Ltd. and Desktop Metal, Inc. announced the mutual termination of their previously announced merger agreement, ending plans to combine two major players in the 3D printing sector.
    • Q2 2024: 3D Systems Appoints Jeffrey Graves as President and CEO 3D Systems announced the appointment of Jeffrey Graves as its new President and Chief Executive Officer, effective immediately, marking a significant leadership change at the company.
    • Q2 2024: Markforged Announces $40 Million Series E Funding Round Markforged, a 3D printing company, raised $40 million in a Series E funding round to accelerate product development and expand its global reach.
    • Q3 2024: HP Unveils New Metal Jet S100 3D Printing Solution for Mass Production HP Inc. launched the Metal Jet S100 Solution, a new 3D printer designed for mass production of metal parts, expanding its additive manufacturing portfolio.
    • Q3 2024: Materialise Acquires Link3D to Strengthen Software Offering Materialise, a Belgian 3D printing company, acquired Link3D, a US-based additive manufacturing software provider, to enhance its end-to-end digital manufacturing solutions.
    • Q3 2024: GE Additive Opens New Additive Technology Center in Germany GE Additive inaugurated a new Additive Technology Center in Munich, Germany, to support research and development in advanced 3D printing technologies.
    • Q4 2024: Formlabs Raises $150 Million in Series F Funding Formlabs, a leading 3D printing company, secured $150 million in Series F funding to scale production and accelerate innovation in desktop and industrial 3D printing.
    • Q4 2024: Nano Dimension Announces Acquisition of Essemtec AG Nano Dimension, a provider of 3D printed electronics, acquired Essemtec AG, a Swiss company specializing in electronic manufacturing solutions, to expand its product offerings.
    • Q1 2025: Xometry Acquires Thomas for $300 Million Xometry, a digital manufacturing marketplace, acquired Thomas, a leader in product sourcing and supplier selection, for $300 million to expand its manufacturing network.
    • Q1 2025: EOS Launches New Industrial 3D Printer for Aerospace Applications EOS introduced a new industrial 3D printer specifically designed for aerospace applications, aiming to meet the sector's stringent quality and performance requirements.
    • Q2 2025: Carbon Announces Strategic Partnership with Adidas for 3D Printed Footwear Carbon, a 3D printing technology company, entered into a strategic partnership with Adidas to develop and manufacture 3D printed midsoles for athletic footwear.
    • Q2 2025: SLM Solutions Wins Major Contract with Airbus for Metal 3D Printing SLM Solutions secured a significant contract with Airbus to supply metal 3D printing systems for the production of aerospace components.

    Future Outlook

    3D Printing Market Future Outlook

    <p>The 3D Printing Market is projected to grow at a 19.24% CAGR from 2024 to 2035, driven by advancements in materials, technology, and applications across various industries.</p>

    New opportunities lie in:

    • <p>Development of customized 3D-printed medical implants</p>
    • <p>Expansion of on-demand manufacturing services</p>
    • <p>Integration of AI for optimized design processes</p>

    <p>By 2035, the 3D Printing Market is expected to be a pivotal industry, driving innovation and efficiency.</p>

    Market Segmentation

    3D Printing Market Type Outlook

    • Hardware
    • Software
    • Services

    3D Printing Market Material Outlook

    • Polymer
    • Metal
    • Ceramic

    3D Printing Market Software Outlook

    • Design Software
    • Printer Software
    • Scanning Software
    • Others

    3D Printing Market Vertical Outlook

    • Industrial 3D Printing
    • Desktop 3D Printing

    3D Printing Market Technology Outlook

    • Stereolithography
    • Fused Deposition Modeling
    • Selective Laser Sintering
    • Direct Metal Laser Sintering
    • Polyjet Printing
    • Inkjet Printing
    • Electron Beam Melting
    • Laser Metal Deposition
    • Digital Light Processing
    • Laminated Object Manufacturing
    • Others

    3D Printing Market Application Outlook

    • Prototyping
    • Tooling
    • Functional Parts

    3D Printing Market Printer Type Outlook

    • Desktop 3D Printer
    • Industrial 3D Printer

    Report Scope

    MARKET SIZE 202413.33(USD Billion)
    MARKET SIZE 202515.9(USD Billion)
    MARKET SIZE 203592.38(USD Billion)
    COMPOUND ANNUAL GROWTH RATE (CAGR)19.24% (2024 - 2035)
    REPORT COVERAGERevenue Forecast, Competitive Landscape, Growth Factors, and Trends
    BASE YEAR2024
    Market Forecast Period2025 - 2035
    Historical Data2019 - 2024
    Market Forecast UnitsUSD Billion
    Key Companies ProfiledMarket analysis in progress
    Segments CoveredMarket segmentation analysis in progress
    Key Market OpportunitiesIntegration of artificial intelligence in 3D Printing Market enhances design efficiency and customization capabilities.
    Key Market DynamicsTechnological advancements and regulatory changes drive innovation and competition in the 3D printing market.
    Countries CoveredNorth America, Europe, APAC, South America, MEA

    FAQs

    How much is the 3D printing market?

    The 3D printing market size was valued at USD 13.33 billion in 2024.

    What is the growth rate of the 3D printing market?

    The market is projected to grow at a CAGR of 19.24% during the forecast period, 2025 to 2035.

    Which region held the largest market share in the 3D printing market?

    Europe had the largest share of the market

    Who are the key players in the 3D printing market?

    The key players in the market are 3D Systems, Inc., Netherlands Organization for Applied Scientific Research, NATURAL MACHINES, Choc Edge, Systems &amp; Materials Research Corporation, ORD Solutions Inc, and PancakeBot LLC.

    Which component led the 3D printing market?

    The hardware category dominated the market in 2022.

    Which application had the largest market share in the 3D printing market?

    The prototyping had the largest share in the market.

    Which printer type led the 3D printing market?

    The beverage category dominated the market in 2022.

    Which technology had the largest market share in the 3D printing market?

    The store based had the largest share in the market.

    Which software led the 3D printing market?

    The beverage category dominated the market in 2022.

    Which vertical had the largest market share in the 3D printing market?

    The store based had the largest share in the market.

    Which material led the 3D printing market?

    The metal category dominated the market in 2022.

    No Data Available

    3D Printing Market Segmentation

    3D Printing Component Outlook (USD Billion, 2018-2032)

    Hardware

    Software

    Services

    3D Printing Application Outlook (USD Billion, 2018-2032)

    Prototyping

    Tooling

    Functional Parts

    3D Printing Printer Type Outlook (USD Billion, 2018-2032)

    Desktop 3D Printer

    Industrial 3D Printer

    3D Printing Technology Outlook (USD Billion, 2018-2032)

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    3D Printing Software Outlook (USD Billion, 2018-2032)

    Design Software

    Printer Software

    Scanning Software

    Others

    3D Printing Vertical Outlook (USD Billion, 2018-2032)

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    •  

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    3D Printing Material Outlook (USD Billion, 2018-2032)

    Polymer

    Metal

    Ceramic

    3D Printing Regional Outlook (USD Billion, 2018-2032)

    North America Outlook (USD Billion, 2018-2032)

    North America 3D Printing by Component

    Hardware

    Software

    Services

    North America 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    North America 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    North America 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    North America 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    North America 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    North America 3D Printing by Material

    Polymer

    Metal

    Ceramic

    US Outlook (USD Billion, 2018-2032)

    US 3D Printing by Component

    Hardware

    Software

    Services

    US 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    US 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    US 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    US 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    US 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    US 3D Printing by Material

    Polymer

    Metal

    Ceramic

    CANADA Outlook (USD Billion, 2018-2032)

    CANADA 3D Printing by Component

    Hardware

    Software

    Services

    CANADA 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    CANADA 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    CANADA 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    CANADA 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    CANADA 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    CANADA 3D Printing by Material

    Polymer

    Metal

    Ceramic

    Europe Outlook (USD Billion, 2018-2032)

    Europe 3D Printing by Component

    Hardware

    Software

    Services

    Europe 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    Europe 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    Europe 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    Europe 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    Europe 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    Europe 3D Printing by Material

    Polymer

    Metal

    Ceramic

    Germany Outlook (USD Billion, 2018-2032)

    Germany 3D Printing by Component

    Hardware

    Software

    Services

    Germany 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    Germany 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    Germany 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    Germany 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    Germany 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    Germany 3D Printing by Material

    Polymer

    Metal

    Ceramic

    France Outlook (USD Billion, 2018-2032)

    France 3D Printing by Component

    Hardware

    Software

    Services

    France 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    France 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    France 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    France 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    France 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    France 3D Printing by Material

    Polymer

    Metal

    Ceramic

    UK Outlook (USD Billion, 2018-2032)

    UK 3D Printing by Component

    Hardware

    Software

    Services

    UK 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    UK 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    UK 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    UK 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    UK 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    UK 3D Printing by Material

    Polymer

    Metal

    Ceramic

    ITALY Outlook (USD Billion, 2018-2032)

    ITALY 3D Printing by Component

    Hardware

    Software

    Services

    ITALY 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    ITALY 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    ITALY 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    ITALY 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    ITALY 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    ITALY 3D Printing by Material

    Polymer

    Metal

    Ceramic

    SPAIN Outlook (USD Billion, 2018-2032)

    Spain 3D Printing by Component

    Hardware

    Software

    Services

    Spain 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    Spain 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    Spain 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    Spain 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    Spain 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    Spain 3D Printing by Material

    Polymer

    Metal

    Ceramic

    Rest Of Europe Outlook (USD Billion, 2018-2032)

    Rest Of Europe 3D Printing by Component

    Hardware

    Software

    Services

    Rest Of Europe 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    REST OF EUROPE 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    Rest Of Europe 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    Rest Of Europe 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    Rest Of Europe 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    REST OF EUROPE 3D Printing by Material

    Polymer

    Metal

    Ceramic

    Asia-Pacific Outlook (USD Billion, 2018-2032)

    Asia-Pacific 3D Printing by Component

    Hardware

    Software

    Services

    Asia-Pacific 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    Asia-Pacific 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    Asia-Pacific 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    Asia-Pacific 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    Asia-Pacific 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    Asia-Pacific 3D Printing by Material

    Polymer

    Metal

    Ceramic

    China Outlook (USD Billion, 2018-2032)

    China 3D Printing by Component

    Hardware

    Software

    Services

    China 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    China 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    China 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    China 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    China 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    China 3D Printing by Material

    Polymer

    Metal

    Ceramic

    Japan Outlook (USD Billion, 2018-2032)

    Japan 3D Printing by Component

    Hardware

    Software

    Services

    Japan 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    Japan 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    Japan 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    Japan 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    Japan 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    Japan 3D Printing by Material

    Polymer

    Metal

    Ceramic

    India Outlook (USD Billion, 2018-2032)

    India 3D Printing by Component

    Hardware

    Software

    Services

    India 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    India 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    India 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    India 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    India 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    India 3D Printing by Material

    Polymer

    Metal

    Ceramic

    Australia Outlook (USD Billion, 2018-2032)

    Australia 3D Printing by Component

    Hardware

    Software

    Services

    Australia 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    Australia 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    Australia 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    Australia 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    Australia 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    Australia 3D Printing by Material

    Polymer

    Metal

    Ceramic

    Rest of Asia-Pacific Outlook (USD Billion, 2018-2032)

    Rest of Asia-Pacific 3D Printing by Component

    Hardware

    Software

    Services

    Rest of Asia-Pacific 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    Rest of Asia-Pacific 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    Rest of Asia-Pacific 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    Rest of Asia-Pacific 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    Rest of Asia-Pacific 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    Rest of Asia-Pacific 3D Printing by Material

    Polymer

    Metal

    Ceramic

    Rest of the World Outlook (USD Billion, 2018-2032)

    Rest of the World 3D Printing by Component

    Hardware

    Software

    Services

    Rest of the World 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    Rest of the World 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    Rest of the World 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    Rest of the World 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    Rest of the World 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    Rest of the World 3D Printing by Material

    Polymer

    Metal

    Ceramic

    Middle East Outlook (USD Billion, 2018-2032)

    Middle East 3D Printing by Component

    Hardware

    Software

    Services

    Middle East 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    Middle East 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    Middle East 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    Middle East 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    Middle East 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    Middle East 3D Printing by Material

    Polymer

    Metal

    Ceramic

    Africa Outlook (USD Billion, 2018-2032)

    Africa 3D Printing by Component

    Hardware

    Software

    Services

    Africa 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    Africa 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    Africa 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    Africa 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    Africa 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    Africa 3D Printing by Material

    Polymer

    Metal

    Ceramic

    Latin America Outlook (USD Billion, 2018-2032)

    Latin America 3D Printing by Component

    Hardware

    Software

    Services

    Latin America 3D Printing by Application

    Prototyping

    Tooling

    Functional Parts

    Latin America 3D Printing by Printer Type

    Desktop 3D Printer

    Industrial 3D Printer

    Latin America 3D Printing by Technology

    Stereolithography

    Fused Deposition Modeling

    Selective Laser Sintering

    Direct Metal Laser Sintering

    Polyjet Printing

    Inkjet Printing

    Electron Beam Melting

    Laser Metal Deposition

    Digital Light Processing

    Laminated Object Manufacturing

    Others

    Latin America 3D Printing by Software

    Design Software

    Printer Software

    Scanning Software

    Others

    Latin America 3D Printing by Vertical

    Industrial 3D Printing

    Automotive

    Aerospace & Defense

    Healthcare

    Consumer Electronics

    Industrial

    Power & Energy

    Others

    Desktop 3D Printing

    Educational Purpose

    Fashion & Jewelry

    Objects

    Dental

    Food

    Others

    Latin America 3D Printing by Material

    Polymer

    Metal

    Ceramic

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