Le marché du matériel et des matériaux d'impression 3D atteindra 49 milliards de dollars américains d'ici 2034.

Impression 3D et fabrication additive 2024-2034 : technologies et perspectives de marché

Quatre-vingt lignes de prévisions sur 10 ans concernant 17 technologies d'impression 3D et 10 types de matériaux d'impression 3D. Comprend des analyses technologiques, des analyses de marché, des études comparatives, des profils d'acteurs pour l'impression 3D de polymères, de métaux, de céramiques, de composites et de construction


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3D Printing and Additive Manufacturing: A Dynamic and Innovative Industry
Since the invention of the first 3D printing technologies in the early 1980s, the 3D printing market has experienced a tremendous amount of growth, innovation, and interest. A niche technology until the expiration of a key patent in 2009, the 2010s allowed many startups to emerge offering cheap consumer-level 3D printers. The subsequent media frenzy in the early 2010s thrust 3D printing into the limelight; that frenzy was accompanied by major multinational corporations like Hewlett Packard and General Electric more substantially entering the 3D printing space. After years of hype, the industry has moved onto a more critical examination of the value-add that effective additive manufacturing adoption brings to businesses and supply chains. Despite the obstacles posed by the COVID-19 pandemic and subsequent macroeconomic uncertainty, the additive manufacturing market continues to find new applications and end-users. Understanding the evolution and current technical status of 3D printing is critical to understanding the future of this industry.
 
IDTechEx's 3D Printing and Additive Manufacturing 2024-2034 report provides insight into the industry's growth and future through expansive analysis of every corner of the market, from hardware and materials to software and services to applications. Any company in the 3D printing supply chain or looking to enter the industry will find valuable insights in this report, like materials suppliers, printer manufacturers, service providers, end-users, and more. This report breaks down the hardware market into 17 technology segments and the materials market into 10 segments to create 80 forecast lines across 12 different forecasts. The forecasts provide a ten-year outlook for 3D printer installation base, new installations, replacement unit sales, revenue from 3D printer sales, demand for 3D printing materials, and revenue from 3D printing materials sales.
 
3D Printing Hardware: Technology and Materials Analyses including Impartial Technical Benchmarking
IDTechEx's 3D printing industry report examines the industry from a materials-centric perspective. Each materials category is discussed from a technology and materials standpoint, providing key technical insights into the major additive manufacturing subspecialities:
  • Polymers
  • Metals
  • Ceramics
  • Composites
  • Construction
Across these categories, IDTechEx individually analyzes over 30 printing technologies by their strengths, weaknesses, opportunities, and threats. In addition, information on hardware manufacturers, technology readiness levels, and key industries for each technology are provided to offer a full picture of each printing process from a technical and application perspective. Additionally, IDTechEx has conducted benchmarking studies within each material subspeciality to compare technologies by key parameters: build volume, build speed, resolution, price, and more. These comparisons were constructed through the extensive database of printer models and technical details collected by IDTechEx over the past seven years of 3D printing coverage. Through this impartial benchmarking, IDTechEx will highlight the advantages and disadvantages of each technology for its end-users.
 
 
Evolution of Market Shares for 3D Printing Technologies and Materials 2023-2034. Source: "3D Printing and Additive Manufacturing 2024-2034: Technology and Market Outlook ", which includes 80 10-year forecast lines in the report
 
To complement expansive technology breakdowns, IDTechEx takes an in-depth look into the established material classes of polymer, metal, and ceramic materials, including photopolymer resins, thermoplastic powders, thermoplastic filaments, metal powders, and ceramic materials. This discussion includes properties, advantages, disadvantages, applications, and suppliers for each of the main material categories.
 
Rounding out this extensive technology and material breakdown is an in-depth discussion of post-processing, software, scanners, and services in 3D printing, all of which are becoming increasingly important to an industry targeting mass market adoption. The extent of additive manufacturing's penetration in different target industries, such as aerospace, healthcare, automotive, and electric vehicles is explored through selected use cases, key news, important 3D printing players, and relevant OEM end-users in each application area.
 
Lastly, IDTechEx will present its research conducted since 2014 to offer its perspective on the current status of the 3D printing market. This includes rankings of the dominant technology segments by market share and emerging trends. IDTechEx's detailed industry analysis will also provide further context to the notable amount of movement in this industry with acquisitions, mergers, investments, and public offerings as additive manufacturing players position themselves for expansion.
 
Market Forecasts for 3D Printing Hardware and Materials
Using extensive primary and secondary research, IDTechEx has constructed detailed 10-year market forecast for the 3D printing market, looking at 3D printing hardware and materials through eighty different forecast lines. The hardware forecasts break the market down by install base, technology type, and unit sale type, while the materials forecasts segment the market into materials classes, polymer feedstock type, and metal feedstock type. This analysis reveals how hardware and materials sales will lead the industry to US$49 billion market size in 2034.
 
IDTechEx conducted exhaustive primary research with companies positioned throughout the entire 3D printing value chain for key insights into the trends impacting growth to 2034. This includes printer manufacturers, materials suppliers, software makers, and service providers. 150 company profiles have been included in the report including Stratasys, 3D Systems, EOS, Markforged, Evonik, and Desktop Metal, amongst others. These profiles give insight into the companies leading the industry, their position amongst their competitors, and the opportunities and challenges they face in the future.
 
Key aspects
This report provides the following information:
 
Technology trends, materials trends, & manufacturer analysis
  • Detailed summaries of all 3D printing technologies by material class
  • Comparison studies between polymer 3D printers of different technologies and metal 3D printers of different technologies
  • Analysis for polymer 3D printing materials, broken into three feedstock categories and seventeen individual feedstock types
  • Comprehensive discussion of metal 3D printing materials on the market by different manufacturers
  • Exploration of auxiliary 3D printing categories, like post-processing, software, scanners, and services
  • Overview of additive manufacturing applications in key industries like electric vehicles, aviation, healthcare, space, automotive, and more
  • Summaries of emerging printer technologies
  • Primary interviews with key companies.
 
Market Forecasts & Analysis:
  • 10-year granular market forecasts of hardware by printer technology, material class, unit sales, install base
  • Eighty forecast lines included across twelve forecasts
  • 10-year granular market forecasts include polymer and metal materials demand and revenue by feedstock type
  • Extensive discussion of the current economic climate's effects on the 3D printing industry and the market's current status through primary and secondary research analysis
Report MetricsDetails
Historic Data2012 - 2022
CAGRThe 3D printing market as generated by sales of 3D printers and 3D printing materials will reach US$49 billion by 2034, at a CAGR of 11% between 2024 and 2034.
Forecast Period2024 - 2034
Forecast UnitsPrinter and Materials Revenue (billions USD), Printers (units), Materials (kilotonnes)
Regions CoveredWorldwide
Segments CoveredTechnology Type, Material Class, New Installations, Replacement Installations, Polymer Feedstock Type, Metal Feedstock Type
Analyst access from IDTechEx
All report purchases include up to 30 minutes telephone time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.
Further information
If you have any questions about this report, please do not hesitate to contact our report team at research@IDTechEx.com or call one of our sales managers:

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Table of Contents
1.EXECUTIVE SUMMARY
1.1.Why adopt 3D printing?
1.2.Material compatibility across 3D printing technologies
1.3.Drivers and restraints of growth for 3D printing
1.4.Overview of polymer 3D printing technologies
1.5.Breaking down polymer materials for 3D printing
1.6.Overview of metal 3D printing technologies
1.7.Overview of metal AM feedstock options
1.8.3D printing ceramics - technology overview
1.9.Evaluation of Ceramic 3D Printing Technologies
1.10.Ceramic 3D printing materials on the market
1.11.Overview of post-processing techniques for metal additive manufacturing
1.12.Overview of post-processing techniques for polymer additive manufacturing
1.13.Relationship between 3D printing hardware and software
1.14.3D scanner manufacturers - segmented by price and technology
1.15.Technology segmentation
1.16.Technology segmentation
1.17.Current 3D printing technology market share
1.18.Current market share of materials demand - revenue and mass
1.19.3D printing market forecast 2024-2034
1.20.3D printing hardware market share in 2034
1.21.3D printing hardware market by process
1.22.3D printing hardware market by process
1.23.3D printing materials forecast 2024-2034 by material type - revenue and mass
1.24.3D printing materials forecast by material type - discussion
1.25.Conclusions
1.26.Company profiles - 3D printer manufacturers
1.27.Company profiles - 3D printing materials, software, services
2.INTRODUCTION
2.1.Glossary: common acronyms for reference
2.2.Scope of Report
2.3.The different types of 3D printing processes
2.4.Material compatibility across 3D printing technologies
2.5.Why adopt 3D printing?
2.6.History of 3D printing: the rise of the hobbyist
2.7.Timeline of 3D printing metals
2.8.History of ceramic 3D printing companies
2.9.Business models: selling printers vs parts
2.10.Consumer vs prosumer vs professional
2.11.Use patterns and market segmentation
2.12.Drivers and restraints of growth for 3D printing
3.POLYMER HARDWARE
3.1.Polymer Printing Technologies
3.1.1.Extrusion: thermoplastic filament
3.1.2.Extrusion: thermoplastic pellet
3.1.3.Powder bed fusion: selective laser sintering (SLS)
3.1.4.Powder bed fusion: multi-jet fusion
3.1.5.Vat photopolymerisation: stereolithography (SLA)
3.1.6.Vat photopolymerisation: digital light processing (DLP)
3.1.7.Material jetting: photopolymer
3.2.Polymer Printer Benchmarking
3.2.1.Introduction to Polymer 3D Printing Technologies
3.2.2.Benchmarking: Maximum Build Volume
3.2.3.Benchmarking: Build Rate
3.2.4.Benchmarking: Z Resolution
3.2.5.Benchmarking: XY Resolution
3.2.6.Benchmarking: Price vs Build Volume
3.2.7.Benchmarking: Price vs Build Rate
3.2.8.Benchmarking: Price vs Z Resolution
3.2.9.Benchmarking: Build Rate vs Build Volume
3.2.10.Benchmarking: Build Rate vs Z Resolution
3.2.11.Averages of Polymer 3D Printing Technologies
4.POLYMER MATERIALS
4.1.Introduction
4.1.1.Breaking down polymer materials for 3D printing
4.2.Photopolymer Resins
4.2.1.Introduction to photopolymer resins
4.2.2.Chemistry of photosensitive resins
4.2.3.Chemistry of photopolymer resins
4.2.4.Chemistry of photosensitive resins
4.2.5.Resins - advantages and disadvantages
4.2.6.General purpose resins - overview
4.2.7.Engineering resins - overview
4.2.8.Flexible resins - overview
4.2.9.Castable resins - overview
4.2.10.Healthcare resins - overview
4.2.11.Extrusion resins - overview
4.2.12.Viscous photosensitive resins
4.2.13.Photosensitive resin suppliers
4.3.Thermoplastic powders
4.3.1.Introduction to thermoplastic powders
4.3.2.Engineering (nylon) powder - overview
4.3.3.Flexible powder - overview
4.3.4.Composite powder - overview
4.3.5.High temperature powder - overview
4.3.6.Engineering (other) powder - overview
4.3.7.Thermoplastic powders: post-processing
4.3.8.Thermoplastic powder suppliers
4.4.Thermoplastic filaments
4.4.1.Introduction to thermoplastic filaments
4.4.2.General purpose filaments - overview
4.4.3.Engineering filaments - overview
4.4.4.Flexible filaments - overview
4.4.5.Reinforced filaments - overview
4.4.6.High temperature filaments - overview
4.4.7.Support Filaments - overview
4.4.8.Fillers for thermoplastic filaments
4.4.9.Thermoplastic filament suppliers
4.4.10.Procurement of thermoplastic filaments
5.METAL HARDWARE
5.1.Established Metal Printing Technologies
5.1.1.Powder bed fusion: direct metal laser sintering (DMLS)
5.1.2.Powder bed fusion: electron beam melting (EBM)
5.1.3.Directed energy deposition: powder
5.1.4.Directed energy deposition: wire
5.1.5.Binder jetting: metal binder jetting
5.1.6.Binder jetting: sand binder jetting
5.1.7.Sheet lamination: ultrasonic additive manufacturing (UAM)
5.2.Emerging Metal Printing Technologies
5.2.1.Emerging Printing Processes - Overview
5.2.2.Extrusion: metal-polymer filament (MPFE)
5.2.3.Extrusion: metal-polymer pellet
5.2.4.Extrusion: metal paste
5.2.5.Vat photopolymerisation: digital light processing (DLP)
5.2.6.Material jetting: nanoparticle jetting (NPJ)
5.2.7.Material Jetting: magnetohydrodynamic deposition
5.2.8.Material jetting: electrochemical deposition
5.2.9.Material jetting: cold spray
5.2.10.Binder jetting advancements
5.2.11.Developments in PBF and DED: energy sources
5.2.12.Developments in PBF and DED: low-cost printers
5.2.13.Developments in PBF and DED: new technologies
5.2.14.Processes with a metal slurry feedstock
5.2.15.Alternative emerging DMLS variations
5.3.Metal printers: comparison and benchmarking
5.3.1.Metal Additive Manufacturing: Technology Overview
5.3.2.Benchmarking: Maximum Build Volume
5.3.3.Benchmarking: Build Rate
5.3.4.Benchmarking: Z Resolution
5.3.5.Benchmarking: XY Resolution
5.3.6.Benchmarking: Price vs Build Volume
5.3.7.Benchmarking: Price vs Build Rate
5.3.8.Benchmarking: Price vs Z Resolution
5.3.9.Benchmarking: Build Rate vs Build Volume
5.3.10.Benchmarking: Build Rate vs Z Resolution
5.3.11.Overview of Metal 3D Printing Technologies
5.3.12.Maximums & Minimums of Metal 3D Printing Technologies
6.METAL MATERIALS
6.1.Metal powders
6.1.1.Overview of Metal AM Feedstock Options
6.1.2.Powder morphology specification
6.1.3.Water or gas atomization
6.1.4.Plasma atomization
6.1.5.Electrochemical atomization
6.1.6.Powder morphology depends on atomization process
6.1.7.Powder morphology depends on atomization process
6.1.8.Metal Compatibility with Printing Technologies
6.1.9.Suppliers of metal powders for AM
6.1.10.Titanium powder - overview
6.1.11.Titanium powder - main players
6.1.12.Titanium powder - main players
6.1.13.Key material start-ups for metal additive manufacturing
6.1.14.Recycled titanium feedstocks
6.1.15.Metal powder bed fusion post processing
6.1.16.Barriers and limitations to using metal powders
6.2.Other metal feedstocks
6.2.1.Metal wire feedstocks
6.2.2.Metal + polymer filaments
6.2.3.Metal + polymer filaments: BASF Ultrafuse
6.2.4.Metal + photopolymer resin
6.3.Emerging metal materials
6.3.1.Expanding the aluminum AM material portfolio
6.3.2.3D printing with copper: huge potential with many challenges
6.3.3.Expanding the copper AM material portfolio
6.3.4.High entropy alloys for AM
6.3.5.Amorphous alloys for AM
6.3.6.Emerging aluminum alloys and MMCs
6.3.7.Multi-metal material solutions
6.3.8.Materials informatics for additive manufacturing materials
6.3.9.Materials informatics for additive manufacturing materials
6.3.10.Tungsten powder and nanoparticles
7.CERAMIC HARDWARE
7.1.Ceramic Printing Technologies
7.1.1.3D printing ceramics - technology overview
7.1.2.Extrusion: ceramic paste
7.1.3.Extrusion: ceramic-polymer filament
7.1.4.Extrusion: ceramic-polymer pellet
7.1.5.Vat photopolymerisation: stereolithography (SLA)
7.1.6.Vat photopolymerisation: digital light processing (DLP)
7.1.7.Material jetting: nanoparticle jetting (NPJ)
7.1.8.Binder jetting: ceramic binder jetting
7.1.9.Why are there no commercial SLS ceramic printers?
7.1.10.Why are there no commercial SLM ceramic printers?
7.2.Ceramic Printers: Benchmarking
7.2.1.Ceramic: Build Volumes by Printer Manufacturer
7.2.2.Ceramic: Minimum Z Resolution by Printer Manufacturer
7.2.3.Ceramic Benchmarking: Z Resolution vs Build Volume
7.2.4.Ceramic: Minimum XY Resolution by Printer Manufacturer
7.2.5.Ceramic: Build Speed by Technology Type
7.2.6.Ceramic Benchmarking: Build Volume vs Price
7.2.7.Ceramic Benchmarking: Z Resolution vs Price
7.2.8.Evaluation of Ceramic 3D Printing Technologies
8.CERAMIC MATERIALS
8.1.Introduction to ceramic 3D printing materials
8.2.Classification: by feedstock type
8.3.Classification: by application
8.4.Classification: by chemistry
8.5.Ceramic 3D printing materials on the market
8.6.Bioceramics
8.7.Mechanical properties of 3DP ceramic materials
8.8.Thermal properties of 3DP ceramic materials
8.9.Average densities of 3DP ceramic materials
8.10.Flexural strength vs density - 3DP ceramic materials
8.11.Alumina comparison - AM vs non AM
8.12.Zirconia comparison - AM vs non AM
8.13.Silicon carbide and nitride comparison
8.14.Ceramic-matrix composites (CMCs)
8.15.Ceramic-matrix composites (CMCs)
8.16.Ceramics as reinforcement in 3D printing
8.17.Manufacturers of ceramics for 3D printing
9.COMPOSITE HARDWARE
9.1.Polymer composites - overview
9.2.Chopped fiber thermoplastic filament extrusion
9.3.Continuous fiber thermoplastic filament extrusion
9.4.Continuous fiber thermoplastic tape extrusion
9.5.Sheet lamination
9.6.Powder bed fusion: selective laser sintering (SLS)
9.7.Continuous fiber thermoset extrusion
9.8.Composite vat photopolymerization
10.COMPOSITE MATERIALS
10.1.Composite material feedstock: introduction
10.2.Material assessment: matrix considerations
10.3.Material assessment: mechanical properties
10.4.Material assessment: price and performance benchmarking
10.5.Material assessment: price and performance benchmarking
10.6.Complete material list: short carbon fiber
10.7.Complete material list: short glass fiber
10.8.Complete material list: powder
10.9.Complete material list: continuous fiber
10.10.Benchmarking study by independent research institute
10.11.Key composite 3D printing material news and developments
10.12.Recycled carbon fiber as feedstock material
10.13.Nanocarbon additive: property advantages
10.14.Nanocarbon additive: commercial activity
11.PRINTERS AND MATERIALS FOR CONSTRUCTION 3D PRINTING
11.1.A brief history of concrete 3D printing
11.2.The drivers behind 3D printed concrete
11.3.The drivers behind 3D printed concrete
11.4.Main categories of concrete AM technology
11.5.Cartesian ("gantry") extrusion
11.6.Cartesian ("gantry") extrusion
11.7.Robotic extrusion
11.8.Robotic extrusion
11.9.Binder jetting
11.10.Materials for concrete 3D printing
11.11.Notable concrete 3D printing projects
11.12.Notable concrete 3D printing projects
11.13.Notable concrete 3D printing projects
11.14.Notable concrete 3D printing projects
11.15.Barriers to adoption of concrete 3D printing
11.16.Outlook for concrete 3D printing
11.17.Concrete 3D printing companies
11.18.Clay 3D printing for construction
11.19.Thermoset 3D printing for construction
12.POST-PROCESSING FOR ADDITIVE MANUFACTURING
12.1.Introduction to post-processing
12.2.Why is post-processing done after 3D printing?
12.3.Overview of post-processing techniques for metal additive manufacturing
12.4.Overview of post-processing techniques for polymer additive manufacturing
12.5.Material removal
12.6.Process-inherent treatments
12.7.Surface finishing techniques
12.8.Other post-processing treatments
12.9.AM post-processing companies
12.10.Pain points for post-processing in AM
13.SOFTWARE, SCANNERS, AND SERVICES
13.1.Software for 3D printing
13.1.1.Overview of 3D printing software segments
13.1.2.Relationship between 3D printing hardware and software
13.1.3.Hobbyist 3D printing software usage
13.1.4.Professional 3D printing software usage
13.1.5.3D scanning software
13.1.6.Computer aided design (CAD)
13.1.7..STL files
13.1.8.Computer aided engineering (CAE): topology
13.1.9.Computer aided engineering (CAE): process simulation
13.1.10.Computer aided manufacture (CAM): build preparation
13.1.11.Integrated CAD/CAE/CAM suites
13.1.12.Workflow management solutions
13.1.13.Pain points in 3D printing software
13.1.14.Developers of 3D printing software
13.1.15.Developers of 3D printing software
13.1.16.Developers of 3D printing software
13.2.3D Scanning
13.2.1.Introduction to 3D scanning
13.2.2.Laser triangulation
13.2.3.Structured light
13.2.4.3D computed tomography
13.2.5.Price segmentation of 3D scanners
13.2.6.3D scanner manufacturers - segmented by price and technology
13.2.7.3D scanners in additive manufacturing
13.2.8.Industries using 3D scanners with 3D printing
13.3.Production services for 3D printing
13.3.1.What are 3D printing service bureaus?
13.3.2.What does a service bureau do?
13.3.3.What does a service bureau do?
13.3.4.Value proposition behind service bureaus
13.3.5.Design for additive manufacturing (DfAM)
13.3.6.Notable 3D printing service bureaus
13.3.7.Notable 3D printing service bureaus
13.3.8.Notable 3D printing service bureaus
13.3.9.Challenges facing additive manufacturing service bureaus
13.3.10.Outlook for 3D printing service bureaus
13.3.11.List of selected 3D printing service bureaus
14.APPLICATIONS FOR ADDITIVE MANUFACTURING
14.1.3D Printing for Healthcare
14.1.1.Most popular 3D printing technologies in healthcare
14.1.2.Polymers used in medical 3D printing
14.1.3.Medical applications of polymer 3D printing
14.1.4.Medical applications of 3D printing by polymer type
14.1.5.3D printing as a surgical tool
14.1.6.Using models to improve patient care, standards and efficiency
14.1.7.3D printing custom plates, implants, valves and stents
14.1.8.3D printing custom plates, implants, valves and stents
14.1.9.Case study: hip replacement revision surgery
14.1.10.Case study: canine cranial plate in titanium
14.1.11.3D printing external medical devices
14.1.12.Case study: hearing aids
14.1.13.Case study: orthotic insoles
14.1.14.High temperature thermoplastic filaments and powders
14.1.15.Photosensitive resins
14.1.16.Titanium alloy powders
14.1.17.Bioactive ceramic filaments and resins
14.1.18.3D printing during the COVID-19 pandemic
14.1.19.Case study: parts for ventilators
14.1.20.3D printing in pharmaceuticals
14.1.21.3D printed pharma: novel dissolution profiles
14.1.22.3D printed pharma: personalized medication
14.1.23.3D printed pharma: novel drugs and drug testing
14.1.24.3D printed pharma: commercial status and regulatory overview
14.1.25.Digital dentistry and 3D printing
14.1.26.Digital dentistry workflow
14.1.27.Photopolymer resins for dentistry
14.1.28.Case study: Invisalign
14.1.29.Case study: dental models
14.1.30.Regulatory overview for polymer 3D printing in dentistry
14.1.31.3D printed orthodontics
14.1.32.Case study: implantable dental devices and prostheses
14.1.33.Case study: mandibular reconstructive surgery
14.2.3D Printing in Aviation, Space, and Defense
14.2.1.GE Aviation: LEAP fuel nozzles
14.2.2.GE Aviation: next-gen RISE engine
14.2.3.GE Aviation: bleed air parts and turboprop engines
14.2.4.GE Aviation and Boeing 777X: GE9X engines
14.2.5.Boeing 787 dreamliner: Ti-6Al-4V structures
14.2.6.Boeing: gearboxes for Chinook helicopters
14.2.7.Boeing and Maxar Technologies: satellites
14.2.8.Airbus and Eutelsat: satellites
14.2.9.Autodesk and Airbus: optimised partition wall
14.2.10.Airbus: bracket
14.2.11.RUAG Space and Altair: antenna mount
14.2.12.Hofmann: oxygen supply tube
14.2.13.Relativity Space: rockets
14.2.14.Composite 3D printing: UAVs and satellites
14.2.15.OEM AM Strategy - GE
14.2.16.OEM AM Strategy - Airbus
14.2.17.OEM AM Strategy - Boeing
14.2.18.OEM AM Strategy - Rolls-Royce
14.3.Other Industries Using Additive Manufacturing
14.3.1.Automotive
14.3.2.Motorsport
14.3.3.Marine
14.3.4.Oil and Gas
14.3.5.Power Generation
14.3.6.Manufacturing Plants
14.3.7.Consumer Goods
14.3.8.Art and Design
14.3.9.Electronics
14.4.Application Spotlight: Additive Manufacturing for Electric Vehicles
14.4.1.IDTechEx's electric vehicle definitions
14.4.2.Overview of electric vehicle markets
14.4.3.Electric car markets: another year of growth
14.4.4.What are the challenges for EV adoption?
14.4.5.AM in EVs: opportunities and barriers
14.4.6.Selected automotive player engagement with AM
14.4.7.3D printing for EVs: prototyping
14.4.8.3D printing for EVs: tools, jigs, and fixtures
14.4.9.3D printing for EVs: electric motors
14.4.10.3D printing for EVs: electric motor components
14.4.11.3D printing for EVs: electric motor components
14.4.12.3D printing for EVs: lithium-ion batteries (LIBs)
14.4.13.3D printing for EVs: solid-state batteries (SSBs)
14.4.14.3D printing for EVs: solid-state batteries (SSBs)
14.4.15.3D printing for EVs: thermal management
14.4.16.3D printing for EVs: thermal management
14.4.17.3D printing for EVs: thermal management
14.4.18.3D printing for EVs: other components
14.4.19.3D printing for EVs: interior and body parts
14.4.20.Luxury EVs: an opportunity for AM
14.4.21.Luxury EVs: an opportunity for AM
14.4.22.Summary: additive manufacturing for electric vehicles
15.MARKET ANALYSIS
15.1.Financial Landscape for 3D Printing 2022
15.1.1.Investment and M&A activity in AM: 2022 vs 2021
15.1.2.AM-related companies going public in 2022
15.1.3.AM-related companies going public in 2022: discussion
15.1.4.Notable AM mergers and acquisitions in 2022
15.1.5.Notable AM mergers and acquisitions in 2022: discussion
15.1.6.3D printing private funding: 2021 vs 2022
15.1.7.3D printing private funding: 2021 vs 2022
15.1.8.Top 10 funding rounds in 3D printing in 2022
15.1.9.Bankruptcies in AM in 2022
15.1.10.Lay-offs and other news in AM in 2022
15.2.Financial Landscape for 3D Printing 2023
15.2.1.Investment and M&A activity in AM: 2023 vs 2022
15.2.2.AM-related companies going public: 2021-2023
15.2.3.Notable AM mergers and acquisitions: 2022
15.2.4.Notable AM mergers and acquisitions: 2023
15.2.5.Notable AM mergers and acquisitions: 2023
15.2.6.Technology comparison: Stratasys vs Desktop Metal vs 3D Systems
15.2.7.3D printing private funding: 2021-2023
15.2.8.3D printing private funding: 2023
15.2.9.3D printing private funding trends in 2023
15.2.10.Other recent news in 3D printing
15.2.11.Common themes in recent 3D printing success stories
15.2.12.Common themes in recent divestures and exits from 3D printing
15.3.Historic Growth and Trends for 3D Printing
15.3.1.AM steadily growing into important high-value applications
15.3.2.Interesting trends for additive manufacturing
15.3.3.Crucial challenges for additive manufacturing
15.3.4.Additive manufacturing: key takeaways for solutions providers
15.3.5.3D printing hardware historic revenue growth
15.3.6.Evolution of market shares for seven 3D printing processes
15.3.7.Technology segmentation
15.3.8.Technology segmentation
15.3.9.Current 3D printing technology market share
15.3.10.Current market share of materials demand - revenue and mass
16.MARKET FORECASTS
16.1.Introduction
16.1.1.3D printing market forecast 2024-2034
16.2.3D Printing Hardware Forecasts
16.2.1.Forecast methodology and presentation of findings
16.2.2.3D printing hardware market forecast 2024-2034
16.2.3.3D printing hardware market forecast by technology
16.2.4.3D printing hardware market by technology
16.2.5.3D printing hardware market by process
16.2.6.3D printing hardware market by process
16.2.7.3D printing hardware market by material
16.2.8.3D printing hardware market by unit sale type
16.2.9.3D printing hardware unit sales by technology
16.2.10.3D printing install base by technology
16.2.11.3D printing hardware market share in 2034
16.3.3D Printing Material Forecasts
16.3.1.Forecast methodology and presentation of findings
16.3.2.3D printing materials forecast by material type - mass and revenue
16.3.3.3D printing materials forecast by material type - Discussion
16.3.4.Polymer 3D printing materials forecast by feedstock - mass and revenue
16.3.5.Polymer Materials Forecast by Feedstock - Discussion
16.3.6.Metal 3D printing materials forecast by feedstock - mass and revenue
16.3.7.Metal AM Materials Forecast by Feedstock - Discussion
17.CONCLUSIONS
17.1.Key trends for 3D printing materials
17.2.Key trends for 3D printing hardware
17.3.Conclusions
17.4.Company profiles - 3D printer manufacturers
17.5.Company profiles - 3D printing materials, software, services
18.COMPANY PROFILES
18.1.3D printer manufacturers
18.1.1.3D Ceram Sinto
18.1.2.3D Systems
18.1.3.3D Systems (2022 Update)
18.1.4.3D Systems (2023 Update)
18.1.5.9T Labs
18.1.6.9T Labs (2021 Update)
18.1.7.Aconity3D
18.1.8.ADDere
18.1.9.Addilan
18.1.10.Additive Industries
18.1.11.Admatec
18.1.12.AIM3D
18.1.13.Anisoprint
18.1.14.APS TechSolutions
18.1.15.APS TechSolutions (2021 Update)
18.1.16.Arevo
18.1.17.Arris Composites
18.1.18.Axtra3D
18.1.19.Azul3D
18.1.20.BCN3D Technologies
18.1.21.BeAM Machines
18.1.22.Bond3D
18.1.23.Chiron
18.1.24.Continuous Composites
18.1.25.Desktop Metal
18.1.26.DMG Mori
18.1.27.Electroimpact
18.1.28.EOS
18.1.29.Evolve Additive Solutions
18.1.30.Exaddon
18.1.31.ExOne
18.1.32.Foundry Lab
18.1.33.Fraunhofer IKTS
18.1.34.GE Additive
18.1.35.Gefertec
18.1.36.Hoganas (including Digital Metal)
18.1.37.HP 3D Printing
18.1.38.Impossible Objects
18.1.39.Inkbit
18.1.40.JuggerBot3D
18.1.41.Kumovis
18.1.42.Lithoz
18.1.43.Lithoz (2022 Update Interview)
18.1.44.Mantle
18.1.45.Markforged
18.1.46.Markforged (2023 Update)
18.1.47.Massivit 3D
18.1.48.Massivit 3D (2021 Update Interview)
18.1.49.MELD Manufacturing
18.1.50.Meltio
18.1.51.Meltio (2023 Update)
18.1.52.Metallum3D
18.1.53.Moi Composites
18.1.54.MX3D
18.1.55.Nano Dimension
18.1.56.Nanoscribe
18.1.57.Nexa3D
18.1.58.Nexa3D (2023 Update)
18.1.59.nScrypt
18.1.60.One Click Metal
18.1.61.Optomec
18.1.62.Optomec (2021 Update)
18.1.63.Optomec (2023 Update)
18.1.64.Orbital Composites
18.1.65.Photocentric
18.1.66.Photosynthetic
18.1.67.Prima Additive
18.1.68.Quantica
18.1.69.Quantica (2023 Update)
18.1.70.Rapidia
18.1.71.Renishaw
18.1.72.Roboze
18.1.73.Sciaky
18.1.74.SK-Fine
18.1.75.SLM Solutions
18.1.76.SPEE3D
18.1.77.SphereCube
18.1.78.Stratasys
18.1.79.Stratasys (2021 Update)
18.1.80.Stratasys (2022 Update)
18.1.81.Tethon3D
18.1.82.Titomic
18.1.83.Tritone Technologies
18.1.84.TRUMPF
18.1.85.Ultimaker
18.1.86.UpNano
18.1.87.ValCUN
18.1.88.Velo3D
18.1.89.Velo3D (2022 Update Interview)
18.1.90.WAAM3D
18.1.91.WAAM3D (2022 Update Interview)
18.1.92.Xerox
18.1.93.Xerox (2023 Update)
18.1.94.Xi'an Bright Laser Technology
18.1.95.Xolo
18.1.96.XJet
18.2.Materials Companies
18.2.1.3D Strong
18.2.2.6K
18.2.3.6K Additive (2023 Update)
18.2.4.AlphaPowders
18.2.5.AlphaPowders (2023 Update)
18.2.6.BASF
18.2.7.Carpenter
18.2.8.Covestro
18.2.9.Elementum3D
18.2.10.Equispheres
18.2.11.Evonik
18.2.12.Gamma Alloys
18.2.13.Glassomer
18.2.14.Headmade Materials
18.2.15.Huntsman
18.2.16.Lubrizol
18.2.17.Materic: Synteris
18.2.18.Mechnano
18.2.19.Metalysis
18.2.20.Metalysis (2020 Update Interview)
18.2.21.Mitsubishi Chemical
18.2.22.Mitsubishi Chemical (2022 Update Interview)
18.2.23.Molecular Rebar Design
18.2.24.NanoAL
18.2.25.Nanoe
18.2.26.Oxford Performance Materials
18.2.27.Reflow
18.2.28.SAFINA
18.2.29.Schunk Carbon Technology
18.2.30.SGL Carbon
18.2.31.Solvay
18.2.32.TANIOBIS
18.2.33.Uniformity Labs
18.2.34.Victrex
18.2.35.Z3DLAB
18.3.Software and Services
18.3.1.3D Inductors
18.3.2.3T Additive Manufacturing
18.3.3.3DEO
18.3.4.Addoptics
18.3.5.Addoptics (2023 Update)
18.3.6.Dassault Systemes
18.3.7.DyeMansion
18.3.8.FormAlloy
18.3.9.Graphite Additive Manufacturing
18.3.10.Guaranteed
18.3.11.Holo
18.3.12.Hyperganic
18.3.13.Luxexcel
18.3.14.Luxexcel (2023 Update)
18.3.15.MetShape
18.3.16.Norsk Titanium
18.3.17.OPT Industries
18.3.18.PrinterPrezz
18.3.19.Ricoh 3D
18.3.20.Seurat Technologies
18.3.21.Synbiosys
19.APPENDIX
19.1.3D printing market forecast 2024-2034
19.2.3D printing hardware market forecast by technology
19.3.3D printing hardware market by material
19.4.3D printing hardware market by unit sale type
19.5.3D printing hardware unit sales by technology
19.6.3D printing install base by technology
19.7.3D printing materials forecast by material type -mass
19.8.3D printing materials forecast by material type - revenue
19.9.Polymer AM materials forecast by feedstock -mass
19.10.Polymer AM materials forecast by feedstock - revenue
19.11.Metal 3D printing materials forecast by feedstock - mass
19.12.Metal 3D printing materials forecast by feedstock - revenue
 

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Report Statistics

Slides 477
Companies 152
Forecasts to 2034
Published Jan 2024
ISBN 9781835700099
 

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