Global 3D Printing Robot Market Size, Share & Trends Analysis Report By Component, By Application (Prototyping, Tooling, and Functional Part Manufacturing), By Robot Type, By End User, By Regional Outlook and Forecast, 2023 - 2030
The Global 3D Printing Robot Market size is expected to reach $4.3 billion by 2030, rising at a market growth of 14.8% CAGR during the forecast period.
The utilization of metal 3D printing, specifically with titanium and aluminum alloys, is indispensable in the aerospace sector. It enables the fabrication of complex, lightweight components with exceptional strength and durability. This feature offers notable benefits in the aerospace industry, specifically regarding aircraft weight reduction and improved fuel efficiency. Consequently, the Aerospace & Defense segment would acquire nearly 25% of the total market share by 2030. Composite materials, manufactured by fusing distinct materials to attain desired properties, find application in the aerospace sector. Through the utilization of composite materials, 3D printing facilitates the fabrication of complex structures that are both lightweight and durable.
These robots have revolutionized the healthcare industry by enabling the production of custom implants and prosthetics tailored to the unique anatomy of patients. This level of customization ensures a better fit, reducing the risk of complications and improving patient outcomes. Furthermore, companies leveraging these robots to offer personalized products can differentiate themselves in the market. This uniqueness often attracts customers seeking tailored solutions and experiences. Thus, these factors will help expand the market. Additionally, traditional manufacturing processes often involve subtractive methods, where raw materials are cut or shaped into the final product. This can result in significant material wastage, as excess material is removed during production. In contrast, 3D printing is classified as an additive manufacturing technique. It constructs objects by applying material only in the proportions required for the end result. This reduces material wastage, making the production process more resource efficient. Additionally, prototyping is a crucial phase in product development, where multiple design iterations are created and tested before finalizing the product. Rapid prototyping is made possible through 3D printing, which enables the economical and timely creation of prototypes. Hence, these aspects will increase demand in the market.
However, acquiring 3D printing equipment, such as high-quality printers and associated hardware, can require a substantial upfront investment. The cost of advanced 3D printers with multiple functionalities, high precision, and large printing volumes can be a barrier for smaller businesses. Moreover, regular maintenance of 3D printing equipment is essential to ensure consistent performance. Costs associated with maintenance, repairs, and the need for skilled technicians can add to the overall operational expenses. Owing to these factors, there will be reduced demand for these robots.
By Component Analysis
Based on component, the market is segmented into robot arms, 3D printing heads, and software. In 2022, the 3D printing heads segment garnered a significant revenue share in the market. The demand for 3D printers capable of handling multiple materials simultaneously has fueled the growth of the 3D printing heads segment. By enabling the production of complex, functional objects with diverse properties, multi-material printing broadens the scope of its applications in the healthcare, automotive, and electronics sectors. Therefore, the segment will expand rapidly in the coming years.
By Application Analysis
Based on application, the market is divided into prototyping, tooling, and functional part manufacturing. In 2022, the tooling segment witnessed a substantial revenue share in the market. The intricate and complex geometries produced by 3D printing are difficult, if not impossible, to attain through conventional manufacturing techniques. This translates to the ability to design lightweight yet structurally robust tools in tooling. In particular, the automotive and aerospace industries benefit from lightweight tooling, contributing to improved efficiency and reduced operational strain. Owing to these aspects, the segment will witness increased demand in the coming years.
By Robot Type Analysis
On the basis of robot type, the market is divided into articulated robots, cartesian robots, scara robots, polar robots, delta robots, and others. In 2022, the cartesian robots segment witnessed a substantial revenue share in the market. Cartesian robots are generally considered more straightforward in design and operation than robotic systems. This simplicity contributes to their accessibility, making Cartesian robots attractive to a broader range of users, including small and medium-sized enterprises (SMEs) that may not have extensive expertise in complex robotic systems. These aspects will pose lucrative growth prospects for the segment.
By End User Analysis
On the basis of end user, the market is divided into automotive, FMCG, aerospace & defense, construction, culinary, and others. In 2022, the automotive segment witnessed a substantial revenue share in the market. By utilizing 3D printing for rapid prototyping, automotive manufacturers can bring new vehicle designs to market more efficiently. Rapid prototyping enables expedited design validation, diminishing the time and financial investments of conventional prototyping techniques. Owing to these aspects, the segment will expand rapidly in the upcoming years.
By Regional Analysis
By region, the market is segmented into North America, Europe, Asia Pacific, and LAMEA. The North America segment procured the highest revenue share in the market in 2022. There has been an increasing need for 3D printing technologies in the region, evident in numerous sectors such as aerospace, healthcare, automotive, and manufacturing. The robust technological infrastructure, coupled with a high level of industrialization, has propelled the adoption of these robots in North America. Thus, these factors will pose lucrative growth prospects for the segment.
Strategies Deployed in the Market
- Nov-2023: CEAD B.V. expanded globally, launching CEAD Group Inc. in the United States, emphasizing a commitment to advanced 3D printing technology for revolutionizing manufacturing. The move aimed to enhance client support, aligning with US partners focused on research, development, and sustainability in the manufacturing sector.
- Sep-2023: Meltio3D revealed the Meltio Robot Cell, enhancing industrial robotic arms in metal additive manufacturing. Integrated with Meltio Space slicing software, it provided better control for the metal 3D printing process, supporting standard printing and part repair or additions.
- Aug-2023: Kuka AG collaborated with Mark3D, specialises in the supply and support of Carbon Fibre and metal 3D printing machines, to automate industrial 3D printing and robotic processes, enhancing manufacturing efficiency. The collaboration aimed to automate tasks like loading 3D printers and producing robot grippers. The collaboration explored printing replacement parts for robots, offering a broad spectrum of applications for users and machine builders, from fully automated 3D printing to individualized robotic components.
- Aug-2023: Caracol collaborated with the MADE Competence Center and Politecnico di Milano to develop the RAMICoS - Intelligent Control System for robotic large-scale additive manufacturing systems (LFAM). The collaboration aimed to identify common problems that occurred during the printing process of Robotic LFAM Systems, defining and characterizing the related defects generated that affected the deposition of the extruded material.
- Aug-2023: Meltio3D introduced Meltio Space software, a toolpath generator to simplify robotic 3D printing adoption without requiring expertise in robotics or programming, with the goal of efficiently manufacturing metal parts using wire-laser technology.
List of Key Companies Profiled
- Kuka AG (Midea Group Co., Ltd.)
- ABB Group
- Yaskawa Electric Corporation
- FANUC Corporation
- Universal Robots A/S (Teradyne, Inc.)
- Massive Dimension
- CEAD B.V.
- Caracol
- Meltio3D
- Comau S.p.A. (Stellantis N.V.)
Global 3D Printing Robot Market Report Segmentation
By Component
- Robot Arms
- 3D Printing Heads
- Software
By Application
- Prototyping
- Tooling
- Functional Part Manufacturing
By Robot Type
- Articulated Robots
- Cartesian Robots
- Scara Robots
- Polar Robots
- Delta Robots
- Others
By End User
- Aerospace & Defense
- Construction
- FMCG
- Culinary
- Automotive
- Others
By Geography
- North America
- US
- Canada
- Mexico
- Rest of North America
- Europe
- Germany
- UK
- France
- Russia
- Spain
- Italy
- Rest of Europe
- Asia Pacific
- China
- Japan
- India
- South Korea
- Singapore
- Malaysia
- Rest of Asia Pacific
- LAMEA
- Brazil
- Argentina
- UAE
- Saudi Arabia
- South Africa
- Nigeria
- Rest of LAMEA