3D Scanning Market

The 3D scanning market is expected to experience significant growth in the next decade, with an estimated increase from USD 5.13 billion in 2023 to USD 9.59 billion by 2032. This growth is estimated to have a compound annual growth rate of approximately 7.20% from 2024 to 2032.

3D Scanning Market Overview

3D scanning is gaining popularity in the industry and has established itself as a crucial instrument in product lifecycle management (PLM). It has completely changed how businesses model, develop, and depict the actual environment in the game industry. The process of measuring and recording has been streamlined and enhanced because of advances in scanning across various sectors, from engineering and manufacturing to healthcare. Additionally, by incorporating three-dimensional scanning into their process, current measuring specialists may become more efficient. ScanTech introduced the KSCAN 3D scanner in April 2019, designed specifically for metrology grade measurement. The built-in photogrammetry technology increases volumetric accuracy and broadens the scan area. Due to the rise in demand for extremely accurate 3D scanning, the market share for 3D scanning is anticipated to experience noticeable development throughout the forecast period. The market has expanded as a result of ongoing 3D scanning technical improvements. Additionally, during the projection period, the demand for vast amounts of 3D data to be captured for modeling and analysis is anticipated to expand.

The 3D scanning market is expected to witness significant growth in the coming years due to advancements in technology and increasing demand from various end-use industries. The market is driven by the growing need for 3D scanning technology in applications such as reverse engineering, quality control, and rapid prototyping. Additionally, the rising adoption of 3D printing technology in various industries is also expected to drive the growth of the 3D scanning market.

Moreover, the increasing popularity of 3D scanning for medical applications, such as orthodontics and prosthetics, is expected to boost market growth. The automotive and aerospace industries are also expected to contribute significantly to the 3D scanning market, owing to the growing need for accurate measurement and inspection of complex parts and components.

The Asia-Pacific region is expected to witness significant growth in the 3D scanning market due to the increasing adoption of 3D printing technology in various industries, particularly in China and Japan. North America and Europe are also expected to hold significant shares in the market, owing to the presence of major manufacturers in these regions.

Overall, the 3D scanning market is expected to witness significant growth in the coming years, driven by advancements in technology and increasing demand from various end-use industries.

Key aspects of the 3D scanning market:

1. Market Growth:

• The 3D scanning market has been experiencing notable growth, driven by increased adoption across various industries. Advancements in technology, coupled with the growing demand for precise and detailed 3D models, contribute to the market’s expansion.

2. Diverse Applications:

• 3D scanning technology finds applications in a variety of industries, including manufacturing, healthcare, architecture, entertainment, and cultural heritage preservation. It is used for purposes such as quality control, reverse engineering, virtual prototyping, and documentation.

3. Adoption in Manufacturing:

• In manufacturing, 3D scanning is widely used for quality control, ensuring accurate dimensions of components, and facilitating reverse engineering processes. This technology helps streamline production workflows and enhance product development.

4. Healthcare Applications:

• In healthcare, 3D scanning is employed for creating detailed models of anatomical structures, aiding in surgical planning, and facilitating the design of custom implants and prosthetics.

5. Architectural and Construction Industry:

• The architectural and construction industries utilize 3D scanning for creating accurate as-built documentation, capturing existing structures, and facilitating design and renovation processes.

6. Entertainment and Cultural Heritage:

• 3D scanning is used in the entertainment industry for creating digital assets, character modeling, and special effects. Additionally, it plays a crucial role in preserving cultural heritage by digitizing artifacts and historical sites.

7. Portable and Handheld Scanners:

• Advances in technology have led to the development of portable and handheld 3D scanners, offering flexibility and ease of use. These scanners are particularly useful for applications that require mobility and accessibility.

8. Software Integration:

• Integration with advanced software solutions enhances the capabilities of 3D scanning systems. This includes features such as point cloud processing, mesh generation, and compatibility with various CAD (Computer-Aided Design) and modeling software.

Recent Developments (up to 2023):

• Continuous improvements in scanning accuracy and speed.
• Integration of artificial intelligence (AI) and machine learning (ML) for automated processing of scanned data.
• Expansion of 3D scanning applications in fields such as augmented reality (AR) and virtual reality (VR).

3D Scanning Market Drivers:

3D scanning is a requirement for Product Lifecycle Management to promote market expansion. Every stage of the product lifecycle management (PLM) process, including the idea, design, manufacturing, and service stage, is seen by businesses as needing 3D scanning as a key tool. Scanners are used in the concept stage of PLM to establish requirements and specifications, concept designs, and prototypes. Rapid prototyping, computer-aided design (CAD), testing, simulation, and analysis are all employed throughout the design stage. It is used in tool design, assembly, and production, and quality control during the manufacturing stage is used for documentation, maintenance, repair, and replacement, as well as for recycling and component restoration throughout the service stage. For instance, Faro Technologies’ FARO 8-Axis Design ScanArm 2.5C may be used at practically every level of the product lifecycle management process. It is a scanner in reverse engineering, 3D modeling, and CAD-based design. On the other hand, demand for 3D printing and structured light-based 3D scanning is predicted to expand during the projection period, opening up the attractive potential for market expansion.

3D Scanning Market: Restraints

The expensive initial cost of the product is restricting the expansion of the 3D scanning industry even though it offers real advantages throughout the manufacturing cycle, considerably improving the whole design and production process. Additionally, the business must invest money in system training for its staff. Although scanning systems may be combined with other programs, doing so requires technical know-how. Even though most SMEs have limited resources, they often avoid employing scanning solutions and instead choose other low-cost alternatives, which is anticipated to restrain the development of the 3D scanning market.

3D Scanning Market: Segmentation

The global 3D scanning market has been segmented into types, services, ranges, and applications.

Based on the range, the market is segmented into short-range, medium-range, and long-range 3D scanners. In 2023, the short-range category dominated the market. Due to their excellent resolution and reduced sensitivity to ambient light and changing lighting conditions, short-range 3D scanners are primarily employed in various applications. These inexpensive scanners can scan challenging materials with dark and glossy surface finishes. Short-range 3D scanners are secure for both people and animals. Furthermore, due to their increasing use in mid-range measurement applications, medium-range 3D scanners are gaining ground. These scanners are mostly used for architectural scanning, bridge monitoring, and scanning geological scarps or profiles.

Based on application, the market has been segmented into aerospace and defense, healthcare, automotive, architecture and construction, industrial manufacturing, entertainment and media, and others. Due to its application at several phases of product design creation and execution, the industrial manufacturing industry had the largest share in 2023. The ability to obtain necessary data quickly with 3D scanning makes it a potent tool for accelerating industrial processes. Additionally, it helps future prototypes rapidly identify the flaws in present items. Additionally, the healthcare industry is predicted to have the greatest CAGR in the future since three-dimensional scanning enables medical personnel to examine body components thoroughly before surgery.

3D Scanning Market: Regional Landscape

Due to the expanding use of scanning across several industries, including healthcare, automotive, entertainment, and manufacturing, North America dominated the global 3D scanning market in 2023. A few reasons boosting the growth of the North American market include the increasing attention businesses give to 3D printing and 3D machine vision. The development is also attributed to disruptions in production, an increase in R&D activities, and a spike in regulatory backing from government agencies. Likewise, in the next years, the 3D scanner market will be driven by the rising need for more innovative, more efficient production. To increase efficiency, businesses in this region are constantly investing in and integrating new technology into their operations.

 3D Scanning Market: Competitive Landscape

Some of the main competitors dominating the global 3D Scanning Market include- Faro Technologies Inc., Creaform Inc., Direct Dimensions Inc., GOM GmbH, Konica Minolta Inc., Nikon Corporation, Autodesk Inc., 3D Systems Inc., ShapeGrabber, Maptek Pty Ltd.

Recent Developments

•  August 2021: To leverage Frequency Modulated Continuous Wave (FMCW) technology in industrial metrology and automation applications, Nikon Corporation engaged in a strategic partnership with the U.S. company Aeva Technologies, Inc. By utilizing Aeva’s distinctive FMCW module for industrial automation, metrology, and manufacturing applications and utilizing Nikon’s market-leading position in laser radar technology for industrial accuracy, the cooperation aims to build next-generation 3D scanning solutions.
• February 2020: Professional 3D scanners and the Geomagic 3D education software suite for colleges, universities, and research facilities were introduced by Artec 3D. A wide range of disciplines, including engineering, manufacturing, art and computer graphics, architecture, history and heritage preservation, medical, and science, among others, are served by these 3D scanners and software.

The global 3D Scanning Market is segmented as follows:

3D Scanning Market by Type Outlook (2024-2032)

1. Optical Scanner
2. Laser Scanner
3. Structured Light Scanner

3D Scanning Market by Services Outlook (2024-2032)

1. Reverse Engineering
2. Quality Inspection
3. Rapid Prototyping
4. Face Body Scanning

3D Scanning Market by Range Outlook (2024-2032)

1. Short Range Scanner
2. Medium Range Scanner
3. Long Range Scanner

3D Scanning Market by Application Outlook (2024-2032)

1. Entertainment & Media
2. Aerospace & Defense
3. Healthcare
4. Civil & Architecture
5. Industrial Manufacturing
6. Others

3D Scanning Market by Region Outlook (2024-2032)

1. North America
   • The U.S.
   • Canada
   • Mexico
2. Europe
   • France
   • The UK
   • Spain
   • Germany
   • Italy
   • Rest of Europe
3. Asia Pacific
   • China
   • Japan
   • India
   • New Zealand
   • Australia
   • South Korea
   • Southeast Asia
   • Rest of Southeast Asia
4. The Middle East & Africa
   • Saudi Arabia
   • UAE
   • Egypt
   • Kuwait
   • South Africa
   • Rest of the Middle East & Africa
5. Latin America
   • Brazil
   • Argentina
   • Rest of Latin America