Global 3D Scanner Market Size, Share, Growth & Trends Analysis Report By End User (Automotive, Healthcare, Aerospace & Defense, Education, Manufacturing, Media & Entertainment) By Range (Short-range Scanner, Medium-range Scanner, Long-range Scanner) And Regional Outlook, Growth Potential & Forecast 2024 – 2030


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Scope of 3D Scanner Market

3D scanning is a technique for capturing an item’s three-dimensional properties as well as data like color and texture. This technology helps to save time, money, and effort in the manufacturing process while improving output quality. It allows for both the bright display of a component and the precise imaging of a particle. A wave of advanced imaging applications is entering the market. 3D scanners are an important part of the overall value chain since they enable printing and imaging applications. 3D scanning is frequently used in healthcare applications and is gaining popularity in the media and entertainment sectors. Furthermore, technological advancements have enabled end users to conduct in-depth scanning across a wide range of industrial verticals with these technologies.

Increased R&D investment in 3D metrology, a focus on quality control while making things, and the demand for increased efficiency by electronics manufacturing services organizations are all major drivers of market expansion. Increased cloud computing service utilization and growing demand for Industry 4.0 are expected to provide market participants with opportunities for growth.

The global 3D scanner market is expected to reach US$ 1.03 billion by 2023. Over the assessment period (2023 to 2030), the market is expected to develop at a compound annual growth rate (CAGR) of 6.9%, culminating in a market size of US$ 1.75 billion by the end of 2030.

Impact of COVID – 19

The pandemic exposed vulnerabilities in global supply systems, forcing businesses to reconsider their supply chain strategies. There was a rising emphasis on supply chain localization and resilience, with some businesses attempting to diversify their supplier base and source components locally to avoid repeat disruptions. Concerns regarding virus transmission have resulted in growing usage of contactless technology, such as contactless 3D scanning solutions. Contactless 3D scanners, such as LIDAR-based devices, have gained popularity in fields such as automated inspection, self-driving vehicles, and robots.

The need for remote work and digitalization accelerated during the pandemic, driving the adoption of 3D scanning solutions for virtual inspections, remote collaboration, and digital twin creation. This trend led to increased demand for handheld and portable 3D scanners that could be used remotely. To help the economy recover, governments around the world implemented stimulus packages and investment projects. Some of these initiatives involved funding for research and development in developing technologies such as 3D scanning, which has the potential to fuel future market growth.

3D Scanner Market: Growth Drivers

  • Technological advancements:

Continuous advances in 3D scanning technology, such as increased accuracy, speed, and resolution, are propelling market expansion. Advancements in hardware, software, and algorithms have increased the capability and versatility of 3D scanners.

  • Increasing Demand for 3D Modeling and Printing:

The growing use of 3D modeling and printing technologies in industries such as automotive, aerospace, healthcare, and consumer goods is driving up demand for 3D scanners. 3D scanners are vital for collecting real-world objects and producing digital models for use in later applications.

  • Quality Inspection and Control:

3D scanners are commonly used in industrial processes to check and control quality. They offer rapid and accurate measurement of parts and components, facilitating defect discovery, dimensional analysis, and compliance with quality requirements.

3D Scanner Market: Restraints

  • High initial investment:

Acquiring 3D scanning equipment can be costly, particularly for high-precision scanners and advanced scanning systems. This may be a hurdle to adoption, especially for small and medium-sized businesses (SMEs) with restricted expenditures.

  • Complexity and Skill Requirements:

Operating and interpreting 3D scanning data necessitates specific knowledge and experience with scanning procedures, software tools, and data processing. The technology’s intricacy may put off potential users who lack the appropriate skills or finances.

3D Scanner Market: Opportunities

  • Expansion into New Applications and sectors:

The 3D scanner market offers prospects for growth in new applications and sectors such as architecture, cultural heritage preservation, forensics, and entertainment. Emerging applications such as digital twinning, reverse engineering, and additive manufacturing present opportunities for 3D scanning technologies.

  • Integration with Industry 4.0 and IoT:

Combining 3D scanning technology with Industry 4.0 initiatives and Internet of Things (IoT) platforms allows for digital transformation and smart production. 3D scanners can be linked into automated manufacturing systems to enable real-time quality monitoring and process improvement. 

3D Scanner Market: Challenges

  • Data Processing and Interpretation:

Handling and processing huge amounts of 3D scanning data can be difficult, especially for complicated geometries and high-resolution scans. Efficient data storage, analysis, and visualization techniques are required to derive useful insights from 3D scanning results.

  • Scanning limitations and environmental factors:

Lighting conditions, surface reflectivity, and occlusions can all have an impact on 3D scanning performance. To overcome these constraints, improved scanning techniques, calibration procedures, and adaptive algorithms are required.

  • Regulatory Compliance and Data Security:

In some industries, such as healthcare and aerospace, adherence to regulatory requirements and data security standards is crucial. Ensuring data privacy, confidentiality, and integrity throughout the scanning process is critical for regulatory compliance and customer confidence.

3D Scanner Market: Recent Developments

  • Hexagon provides a variety of 3D scanning technologies for industrial and metrological applications. Recent innovations may include improvements to their portable and automated 3D scanners for quality control and reverse engineering.
  • FARO specializes in portable coordinate measuring machines (CMMs) and 3D imaging solutions, such as laser scanners and metrology software. Recent improvements may include integrating their scanning technology with augmented reality (AR) and virtual reality (VR) platforms to improve visualization and analysis.
  • Trimble offers 3D scanning solutions for construction, engineering, and geospatial applications. Recent breakthroughs may include improvements to their laser scanning devices and software for building information modeling (BIM) and reality capture.

3D Scanner Market: Key Outcomes of the Report

Commercial applications have shown a favorable attitude in 3D scanning technology. Furthermore, the technology’s ability to be adapted to satisfy professional needs in many industries has made it extremely popular across major end-user industries.  Furthermore, 3D scanners are utilized in the construction industry to develop a scaled 3D structure of a building. These gadgets aid in the preservation and archiving of historical monuments from museums in the architecture sector. Because of this technology’s customizability and scalability, manufacturers rely on measurement accuracy and speed while creating and developing complex military and defense equipment, such as frigates, which use 3D scanners. To help the economy recover, governments around the world implemented stimulus packages and investment projects. Some of these initiatives involved funding for research and development in developing technologies such as 3D scanning, which has the potential to fuel future market growth.

List of Key Players in the Global 3D Scanner Market

  • FARO Technologies, Inc.
  • Hexagon AB (Leica Geosystems)
  • Creaform (Ametek Inc.)
  • Trimble Inc.
  • Nikon Metrology NV
  • Artec 3D
  • GOM GmbH
  • Zeiss Group
  • Perceptron, Inc.
  • Keyence Corporation
  • Konica Minolta, Inc.
  • Shining 3D
  • Topcon Corporation
  • ShapeGrabber Inc.

3D Scanner Market: Segmentation

By Technology Type

  • Laser Scanner
  • Optical Scanner
  • Contact Scanner

By Range

  • Short-range Scanner
  • Medium-range Scanner
  • Long-range Scanner

By Type

  • Handheld Scanner
  • Desktop Based
  • Portable CMM
  • Robot Mount

By End-User

  • Automotive
  • Healthcare
  • Aerospace & Defense
  • Education
  • Manufacturing
  • Media & Entertainment
  • Others

By Region

  • North America
  • Europe
  • Asia Pacific
  • Middle East and Africa
  • Latin America

Table of Content

1. Introduction
1.1. Market Definition
1.2. Market Scope
2. Research Methodology
2.1. Primary Research
2.2. Secondary Sources
2.3. Assumptions & Exclusions
3. Market Overview
3.1. Market Overview
3.2. Research Report Segmentation & Scope
3.3. Value Chain Analysis
3.4. Key Market Trend Analysis
3.4.1. Market Drivers
3.4.2. Market Restraint/Challenges
3.4.3. Market Opportunities
3.5. Porter’s Five Forces Analysis
3.6. Potential Venture Avenues
3.7. Market Share Analysis
3.8. Regulatory Framework
3.9. Marketing Strategy
3.10. Key Winning Strategy
3.11. Consumer Behavior Analysis
4. Product Overview
4.1. Introduction
4.2. Market Size & Forecast
4.2.1. Product Sensor Light Source Optics Processing Unit Software
5. Application Overview
5.1. Introduction
5.2. Market Size & Forecast, 2020 to 2029
5.2.1. Key Applications Manufacturing and Industrial Design Healthcare and Medical Imaging Architecture and Construction Cultural Heritage Preservation Entertainment and Media
6. End Users Overview
6.1. Introduction
6.2. Market Size & Forecast, 2020 to 2029
6.2.1. Automotive
6.2.2. Healthcare
6.2.3. Aerospace & Defense
6.2.4. Education
6.2.5. Manufacturing
6.2.6. Media & Entertainment
7. Regional Overview
7.1. Introduction
7.2. Market Size & Forecast
7.2.1. Americas North America U.S. Canada South America
7.2.2. Europe Western Europe Germany France U.K. Italy Spain Rest Of Western Europe Eastern Europe
7.2.3. Asia Pacific China Australia Japan India Republic of Korea Rest of Asia Pacific
7.2.4. The Middle East & Africa The Middle East UAE Saudi Arabia Kuwait Qatar Rest of the Middle East Africa
8. Manufacturer/ Vendor Profile
8.1. The following attributes will be considered while profiling key manufacturers in this industry:
8.1.1. Company Overview
8.1.2. Financial Synopsis
8.1.3. Recent Developments
8.1.4. R&D Investments (if any)
8.1.5. Strategy Overview (Analyst Perspective)
8.1.6. Product Portfolio
8.2. Companies Profiled
8.2.1. FARO Technologies, Inc.
8.2.2. Hexagon AB (Leica Geosystems)
8.2.3. Creaform (Ametek Inc.)
8.2.4. Trimble Inc.
8.2.5. Nikon Metrology NV
8.2.6. Artec 3D
8.2.7. GOM GmbH
8.2.8. Zeiss Group
8.2.9. Perceptron, Inc.
8.2.10. Keyence Corporation
8.2.11. Konica Minolta, Inc.
8.2.12. Shining 3D
8.2.13. Topcon Corporation
8.2.14. ShapeGrabber Inc.
8.2.15. SMARTTECH 3D

Frequently Asked Questions (FAQ):

  • What is a 3D scanner?

    A 3D scanner is a device that captures the shape, dimensions, and surface texture of physical objects to create digital three-dimensional representations, often referred to as point clouds or meshes. It uses various technologies such as laser, structured light, or photogrammetry to capture data points from the object's surface.
  • What are the main types of 3D scanners?

    The main types of 3D scanners include: • Laser scanners: These use laser beams to measure distances and create point clouds of the object's surface. • Structured light scanners: These project patterns of light onto the object and analyze the deformation of these patterns to determine surface geometry. • Photogrammetry scanners: These use multiple cameras to capture images of the object from different angles and triangulate the positions of common points to reconstruct its 3D shape.
  • What are the key applications of 3D scanners?

    3D scanners are used across various industries and applications, including: • Reverse engineering: Creating digital models of existing physical objects for design modifications or replication. • Quality control and inspection: Checking dimensions, tolerances, and surface defects of manufactured parts. • Cultural heritage preservation: Digitizing artifacts, sculptures, and historical sites for documentation and restoration. • Medical imaging: Capturing body scans for orthopedics, prosthetics, dental, and facial reconstruction applications. • Architecture and construction: Generating 3D models of buildings, structures, and landscapes for design and visualization. • Entertainment and gaming: Creating digital characters, environments, and props for animation, virtual reality (VR), and video games.

Buying Options

Original price was: $6,000.00.Current price is: $5,100.00.
Original price was: $5,000.00.Current price is: $4,500.00.
Original price was: $4,000.00.Current price is: $3,800.00.