Reports
Global 3D Scanning Market: Regional Analysis; Key Segmentation and Scope; Industry Opportunities and Challenges; Market Analysis; Market Dynamics: SWOT Analysis, Porter’s Five Forces Analysis, Key Indicators for Demand, Key Indicators for Price; Value Chain Analysis; Trade Data Analysis; Industry Events and Developments; Competitive Landscape, 2023-2028
3D Scanning Market Outlook
The Procurement Resource 3D Scanning Market consists of the recent market outlook and total forecasted progress. The report also discusses 3D scanning market trends and other important elements that are driving the market growth.
The total 3D scanning market size accounts for around USD 6.06 billion in 2021. Furthermore, the market size is estimated to expand at a CAGR of approximately 10.11% in the forecast time frame of 2022-2027. By 2027, the market is likely to attain a value of about USD 10.80 billion.
Due to the widespread use of technology in businesses such as health care, architecture and construction, aerospace and defence, energy and power, automotive, and electronics the worldwide 3D scanning market is expanding. Regionally, the Asia Pacific is significantly contributing to the market's expansion.
Industry Description and Segmentation
To build a digital 3D model, 3D scanning is an improved method of digitally analysing the physical characteristics of genuine three-dimensional objects or settings. It is a non-destructive, non-contact method that shortens production time, lowers labour costs, and improves output quality.
The 3D Scanning market includes divisions by Variety (Short Range, Medium Range, Long Range), Product Category (Structured Light Scanner, Optical Scanner, Laser Scanner and Others), Component (Hardware, Services, and Software), End-User (Aerospace and Defence, Automotive, Architecture and Construction, Healthcare, and Others), Application (Reverse Engineering, Virtual Simulation, Quality Control and Inspection, and Others), Type (Tripod Mounted, Desktop, Portable CMM Based, and Fixed CMM Based,) and Region (Asia Pacific, North America, Europe, Africa, the Middle East, and South America).
The 3D Scanning Market in Asia Pacific Region is Contributing to the Industry's Growth
Due to the swift economic expansion of nations like China and Japan, the Asia Pacific region dominates the sector. In addition, countries in the area are involved in manufacturing defence aircraft, furthering the 3D scanning market growth.
Other significant contributing factors, such as solid economies, expanding populations, and ongoing government initiatives, lead to industrial expansion and the establishment of production facilities for various industries, such as semiconductors, electronics, and automotive, which fosters 3D scanning market development.
The 3D scanning market is being propelled by the rising investment in the R&D segment as it is employed in several end-use industries. Furthermore, the ease of use of this technology in product manufacturing is boosting the market's demand. In addition, for end-users, the product holds the potential for innovations in the upcoming years which offers an opportunity for the product's sustainability. Such factors are impacting the 3D scanning market price.
The technology is a convenient and reliable alternative for quality checks and detection of anomalies, specifically for manufacturing units, security agencies, inspection authorities, product designers, etc., worldwide. As a result, the developing application of the technology in a wide range of fields is likely to lead to the rise in the 3D scanning market demand.
However, the high cost associated with using the technology will likely act as a market restraint.
Working Process of the Technology
The main procedures of 3D scanning are structured light scanning, photogrammetry, Laser 3D scanning, and structured light scanning. The laser 3D scanner method helps obtain measurements and data from locations where it would be impractical. It is ideal for measuring and inspecting complex geometries. Like a camera, a laser light scanner may just capture data of anything that is in its sphere of sight.
The device projects a laser dot or line onto the object throughout this operation, and a sensor measures the distance to the object's surface. The science of photogrammetry involves calculating the parallax between images captured from various angles. It can be utilised to capture intricate 2D and 3D motion fields.
It mimics the stereoscopy of human binocular vision and is used to gather all the details of real-world things. In the Structured Light Scanning method, a projector that projects various light patterns onto an object's surface takes the place of one of the camera positions utilised in earlier scanning techniques. It is possible to construct a 3D scan by recording how things distort these patterns.
Wide Application of the Technology, Further Driving the 3D Scanning Industry
The industry is benefited from the technology's adoption across a range of end-user markets. Construction, healthcare, and other sectors use it to further their respective industries' development. This technology is being increasingly applied in the automotive, aerospace, and defence industries, particularly in cars that monitor drivetrain and vehicle components.
Furthermore, it is used to ensure accuracy and precision of many technical processes in automobile plants and to examine the entire car body-boosting sales in the sector. Additionally, in the mining sector, the use of 3D scanners is being employed extensively, further bolstering the market growth. Besides, it's because more major companies and government organisations are investing in creating new 3D scanning technologies.
The critical regional segments in the industry are Europe, Latin America, North America, the Asia Pacific, and the Middle East and Africa.
3D Scanning Market Key Players
- 3D Systems, Inc.
- FARO Technologies, Inc.
- Hexagon AB
- Nikon Metrology NV
- Autodesk Inc.
Market Landscape
The key market participants are adopting various strategies like expanding their product portfolio, mergers & acquisitions, accords, geographical expansion, and partnerships to enhance their market penetration and solidify their hold in the industry. They distribute their offered products mainly through direct sales channels.
They also market their goods independently through Original Equipment Manufacturers (OEMs), Value Added Resellers (VARs), consultants, distributors, and system integrators. Many organisations may also use vertical integration to exercise greater control over budgeting and procurement processes.
Key Initiatives by Major Players
- FARO Technologies, Inc. released Focus Swift, their first fully integrated indoor mobile mapping system, in July 2020. The solution is designed to quickly and efficiently complete jobs involving large-area as-built capture.
- To assist ZEISS in shifting to a cloud-focused digital service provider, the ZEISS Group and Microsoft Corp. launched a multi-year strategic partnership in October 2020.
1 Preface
2 Report Coverage – Key Segmentation and Scope
3 Report Description
3.1 Market Definition and Outlook
3.2 Properties and Applications
3.3 Market Analysis
3.4 Key Players
4 Key Assumptions
5 Executive Summary
5.1 Overview
5.2 Key Drivers
5.3 Key Developments
5.4 Competitive Structure
6 Snapshot
6.1 Global
6.2 Regional
7 Industry Opportunities and Challenges
8 Global 3D Scanning Market Analysis
8.1 Key Industry Highlights
8.2 Global 3D Scanning Historical Market (2017-2021)
8.3 Global 3D Scanning Market Forecast (2022-2027)
8.4 Global 3D Scanning Market by Product Type
8.4.1 Optical Scanner
8.4.1.1 Market Share
8.4.1.2 Historical Trend (2017-2021)
8.4.1.3 Forecast Trend (2022-2027)
8.4.2 Laser Scanner
8.4.2.1 Market Share
8.4.2.2 Historical Trend (2017-2021)
8.4.2.3 Forecast Trend (2022-2027)
8.4.3 Structured Light Scanners
8.4.3.1 Market Share
8.4.3.2 Historical Trend (2017-2021)
8.4.3.3 Forecast Trend (2022-2027)
8.4.4 Others
8.5 Global 3D Scanning Market by Range
8.5.1 Short Range
8.5.1.1 Market Share
8.5.1.2 Historical Trend (2017-2021)
8.5.1.3 Forecast Trend (2022-2027)
8.5.2 Medium Range
8.5.2.1 Market Share
8.5.2.2 Historical Trend (2017-2021)
8.5.2.3 Forecast Trend (2022-2027)
8.5.3 Long Range
8.5.3.1 Market Share
8.5.3.2 Historical Trend (2017-2021)
8.5.3.3 Forecast Trend (2022-2027)
8.6 Global 3D Scanning Market by Component
8.6.1 Hardware
8.6.1.1 Market Share
8.6.1.2 Historical Trend (2017-2021)
8.6.1.3 Forecast Trend (2022-2027)
8.6.2 Software
8.6.2.1 Market Share
8.6.2.2 Historical Trend (2017-2021)
8.6.2.3 Forecast Trend (2022-2027)
8.6.3 Services
8.6.3.1 Market Share
8.6.3.2 Historical Trend (2017-2021)
8.6.3.3 Forecast Trend (2022-2027)
8.7 Global 3D Scanning Market by Type
8.7.1 Tripod Mounted
8.7.1.1 Market Share
8.7.1.2 Historical Trend (2017-2021)
8.7.1.3 Forecast Trend (2022-2027)
8.7.2 Fixed CMM Based
8.7.2.1 Market Share
8.7.2.2 Historical Trend (2017-2021)
8.7.2.3 Forecast Trend (2022-2027)
8.7.3 Portable CMM Based
8.7.3.1 Market Share
8.7.3.2 Historical Trend (2017-2021)
8.7.3.3 Forecast Trend (2022-2027)
8.7.4 Desktop
8.7.4.1 Market Share
8.7.4.2 Historical Trend (2017-2021)
8.7.4.3 Forecast Trend (2022-2027)
8.8 Global 3D Scanning Market by Application
8.8.1 Reverse Engineering
8.8.1.1 Market Share
8.8.1.2 Historical Trend (2017-2021)
8.8.1.3 Forecast Trend (2022-2027)
8.8.2 Quality Control and Inspection
8.8.2.1 Market Share
8.8.2.2 Historical Trend (2017-2021)
8.8.2.3 Forecast Trend (2022-2027)
8.8.3 Virtual Simulation
8.8.3.1 Market Share
8.8.3.2 Historical Trend (2017-2021)
8.8.3.3 Forecast Trend (2022-2027)
8.8.4 Others
8.9 Global 3D Scanning Market by End User
8.9.1 Aerospace and Defence
8.9.1.1 Market Share
8.9.1.2 Historical Trend (2017-2021)
8.9.1.3 Forecast Trend (2022-2027)
8.9.2 Automotive
8.9.2.1 Market Share
8.9.2.2 Historical Trend (2017-2021)
8.9.2.3 Forecast Trend (2022-2027)
8.9.3 Healthcare
8.9.3.1 Market Share
8.9.3.2 Historical Trend (2017-2021)
8.9.3.3 Forecast Trend (2022-2027)
8.9.4 Architecture and Construction
8.9.4.1 Market Share
8.9.4.2 Historical Trend (2017-2021)
8.9.4.3 Forecast Trend (2022-2027)
8.9.5 Others
8.10 Global 3D Scanning Market by Region
8.10.1 Market Share
8.10.1.1 North America
8.10.1.2 Europe
8.10.1.3 Asia Pacific
8.10.1.4 Latin America
8.10.1.5 Middle East and Africa
9 Regional Analysis
9.1 North America
9.1.1 Historical Trend (2017-2021)
9.1.2 Forecast Trend (2022-2027)
9.1.3 Breakup by Country
9.1.3.1 United States of America
9.1.3.2 Canada
9.2 Europe
9.2.1 Historical Trend (2017-2021)
9.2.2 Forecast Trend (2022-2027)
9.2.3 Breakup by Country
9.2.3.1 United Kingdom
9.2.3.2 Germany
9.2.3.3 France
9.2.3.4 Italy
9.2.3.5 Others
9.3 Asia Pacific
9.3.1 Historical Trend (2017-2021)
9.3.2 Forecast Trend (2022-2027)
9.3.3 Breakup by Country
9.3.3.1 China
9.3.3.2 Japan
9.3.3.3 India
9.3.3.4 ASEAN
9.3.3.5 Australia
9.3.3.6 Others
9.4 Latin America
9.4.1 Historical Trend (2017-2021)
9.4.2 Forecast Trend (2022-2027)
9.4.3 Breakup by Country
9.4.3.1 Brazil
9.4.3.2 Argentina
9.4.3.3 Mexico
9.4.3.4 Others
9.5 Middle East and Africa
9.5.1 Historical Trend (2017-2021)
9.5.2 Forecast Trend (2022-2027)
9.5.3 Breakup by Country
9.5.3.1 Saudi Arabia
9.5.3.2 United Arab Emirates
9.5.3.3 Nigeria
9.5.3.4 South Africa
9.5.3.5 Others
10 Market Dynamics
10.1 SWOT Analysis
10.1.1 Strengths
10.1.2 Weaknesses
10.1.3 Opportunities
10.1.4 Threats
10.2 Porter’s Five Forces Analysis
10.2.1 Supplier’s Power
10.2.2 Buyer’s Power
10.2.3 Threat of New Entrants
10.2.4 Degree of Rivalry
10.2.5 Threat of Substitutes
10.3 Key Indicators for Demand
10.4 Key Indicators for Price
11 Value Chain Analysis
12 Competitive Landscape
12.1 Market Structure
12.2 Company Profiles
12.2.1 3D Systems, Inc.
12.2.1.1 Company Overview
12.2.1.2 Product Portfolio
12.2.1.3 Demographic Reach and Achievements
12.2.1.4 Certifications
12.2.2 Autodesk, Inc.
12.2.2.1 Company Overview
12.2.2.2 Product Portfolio
12.2.2.3 Demographic Reach and Achievements
12.2.2.4 Certifications
12.2.3 Topcon Positioning Systems, Inc.
12.2.3.1 Company Overview
12.2.3.2 Product Portfolio
12.2.3.3 Demographic Reach and Achievements
12.2.3.4 Certifications
12.2.4 Nikon Corporation
12.2.4.1 Company Overview
12.2.4.2 Product Portfolio
12.2.4.3 Demographic Reach and Achievements
12.2.4.4 Certifications
12.2.5 Perceptron, Inc.
12.2.5.1 Company Overview
12.2.5.2 Product Portfolio
12.2.5.3 Demographic Reach and Achievements
12.2.5.4 Certifications
12.2.6 Others
13 Industry Events and Developments
The global 3D Scanning market size was valued at USD 6.06 billion in 2021.
In 2022-2027, the market is estimated to develop at a CAGR of 10.11%.
The significant demand for the technology in various end-user industries is one of the essential drivers of the market growth.
Autodesk Inc., 3D Systems, Inc., Hexagon AB, Nikon Metrology NV, FARO Technologies, Inc., Creaform Inc., Topcon Corporation, and others are a few of the key players in the global market.
The Asia Pacific region maintains a substantial stake in the market.
The international 3D Scanning market achieved a value of USD 6.06 billion in 2021, propelled by the growing financing in the R&D sector as it is employed in several end-use sectors. Facilitated by the application of the technology in different end-user segments like automobile, aerospace, and defence sectors, the market is anticipated to see additional progress in the projected period of 2022-2027, growing at a CAGR of 10.11%.
The industry is going to reach USD 10.80 billion by 2027. Some leading players in the 3D scanning market are Autodesk Inc., 3D Systems, Inc., Hexagon AB, Nikon Metrology NV, FARO Technologies, Inc., Creaform Inc., Topcon Corporation, and Others.
Procurement Resources' team of experts uses cutting-edge analytical devices and their proficiency to explore the macro and micro characteristics of the industry.
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