3D Printing Market By Offerings( Printer, Software, Material, Service); By Process(Powder Bed Fusion, Vat Photopolymerization, Material Jetting, Material Extrusion, Binder Jetting Directed Energy Deposition, Sheet Lamination); By Technology( Stereolithography (SLA), Direct Metal Laser Sintering (DMLS), Selective Laser Sintering (SLS), Laminated Object Manufacturing (LOM), Electron Beam Melting (EBM),Direct Light Projection (DLP), Fused Deposition Modeling (FDM), Laser Metal Deposition (LMD), Inkjet Printing, PolyJet/ MultiJet Printing (MJP); By Application (Functional Part Manufacturing, Tooling, Prototyping); By Industry Vertical ( Aerospace & Defense, Engineering, Healthcare, Consumer Products, Architecture and Construction, Printed Electronics, Automotive, Education, Food and Culinary, Energy): Prospective Landscape, Size, Share, Growth, Opportunities and Industry Forecast 2019-2028

Published DateReport CodeNo. of PagesReport Format
September – 2020AMR-10040110PDF / Excel
  • The global 3D printing market size was estimated at USD 11.42 billion in 2019 and projected to reach USD 37.72 billion at a CAGR of 14.2 % over the forecast period.

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Market Insights:

3D printing, also known as desktop fabrication or additive printing technology, allows manufacturers to create objects utilizing a computerized document and distinct printing materials. Various types of polymers, metals, and ceramics are used in 3D printing. 3D printing offers methodologies that can make manufacturing of complex designs an apparent reality.3D printing more popular because of the reduction of errors, decrease in development cost and time, and the ability to build customized products. In addition, an increase in applications in healthcare and various other industries is expected to create lucrative growth opportunities for the 3D printing market. The key players in the 3D printing market area intensely focused on elevating their R&D capacities to develop innovative products for different industries and consolidate their position.3D printing technology carries a variety of benefits for manufacturers. The 3D printers are based on different technologies such as inkjet printing, electron beam melting (EBM),  DMLS, SLS, stereolithography (SLA), selective laser sintering (SLS), direct metal laser sintering (DMLS and FDM is the most widely used 3D printing technologies.

Latest Trends:

The following are the trending factors encouraging the global 3D printing market over the coming years:

  • Favorable government initiatives and investments in 3D printing projects
  • Implementation of new industrial-grade 3D printing materials
  • Increasing adoption of latest technologies such as stereolithography (SLA), selective laser sintering (SLS),  fused deposition modeling (FDM), and direct metal laser sintering (DMLS).
  • Increasing research and development activities by leading key vendors
  • The manufacturing of lightweight vehicle components with the help of 3D printing
  • Increasing developments and upgrades across the manufacturing industry sector
  • Early adopters of 3D technology in different manufacturing processes

Driving Factors:

  • The increasing use of the latest healthcare applications and various other industries is expected to create lucrative growth opportunities for the 3D printing market.
  • The DMLS technology is used in applications such as tooling and manufacturing of fixtures and jigs. This technology creates high-quality metal parts as it facilitates the construction of complex geometries of metals, which makes it ideal for the manufacturing industry. In the aerospace and automotive industries, complex structures such as tooling and machinery parts are developed using DMLS. The detailed resolution, cost-efficient production, and quick and easy handlings are the major drivers for the growth of the market for 3D printing based on DMLS technology.
  • The aggressive R&D in Three-Dimensional Printing (3DP) and growing demand for prototyping applications from various industry verticals, particularly healthcare, automotive, and aerospace and defense, are the factors expected to drive the market growth.
  • The adoption of 3D printers has grown among industry manufactures due to its accuracy in printing objects. The use of this technology will improve primary production stages by identifying errors in the product and increases overall performance ability. It reduces the manufacturing cost and process downtime of industry and drives the growth of the 3D printers market.
  • The healthcare industry widely using this technology to produce complex bio-printed medical items.3D printing technology delivers customized products according to consumer needs with accuracy and well-defined smoothness. This key factor boosts the demand for the 3D market.

Restraining Factors:

  • The high cost of 3D printing and Lack of skilled labor hamper the growth of the market.
  • Prototyping is an expensive phase prior to manufacturing. Such perceptions regarding the prototyping coupled with the lack of technical knowledge and a looming lack of standard process controls are expected to hinder the market growth.

Segmentations:

The global 3D printing market has been bifurcated into different global market segments by examining various perspectives such as offerings, process, application, vertical, technology, and global geographies. Based on offerings, it can be divided into Printer, Service, Material, and Software. Based on the process, it can be divided into Powder Bed Fusion, Material Jetting, Binder Jetting, Directed Energy Deposition, Sheet Lamination, and Material Extrusion. Based on the application, it can be divided into Prototyping, Tooling, and Functional Part Manufacturing. Based on vertical, it can be divided into Aerospace & Defense, Jewelry, Education, Engineering, Architecture and Construction, Food and Culinary, Healthcare, and Printed Electronics.

Offerings Perspective (Revenue in USD Million):

  • Printer
  • Service
  • Material
  • Software

Process Perspective (Revenue in USD Million):

  • Powder Bed Fusion
  • Material Jetting
  • Binder Jetting
  • Directed Energy Deposition
  • Sheet Lamination
  • Material Extrusion
  • Vat Photopolymerization

Application Perspective (Revenue in USD Million):

  • Prototyping
  • Tooling
  • Functional Part Manufacturing

Vertical Perspective (Revenue in USD Million):

  • Aerospace & Defense
  • Jewelry
  • Education
  • Engineering
  • Architecture and Construction
  • Printed Electronics
  • Food and Culinary
  • Healthcare
  • Consumer Products
  • Automotive
  • Energy

Technology Perspective (Revenue in USD Million):

  • Stereolithography (SLA)
  • Fused Deposition Modeling (FDM)
  • Inkjet Printing
  • Selective Laser Sintering (SLS)
  • Direct Light Projection (DLP)
  • Laminated Object Manufacturing (LOM)
  • PolyJet/MultiJet Printing (MJP)
  • Electron Beam Melting (EBM)
  • Laser Metal Deposition (LMD)
  • Other Technologies
  • Direct Metal Laser Sintering (DMLS)

Regional Perspective (Revenue in USD Million):

North America

  • U.S.A
  • Canada

Europe

  • Italy
  • Germany
  • France
  • UK
  • Spain
  • Rest of Europe

Asia-Pacific

  • China
  • India
  • Japan
  • Rest of Asia-Pacific

Latin America

  • Brazil
  • Mexico

Middle East & Africa

  • UAE
  • Saudi Arabia
  • Turkey
  • Rest of Middle East & Africa

Regional Insights:

  • The global 3D printing market has been scrutinized into various global market regions including North America, Asia-Pacific, Africa, and Europe, Latin America, and the Middle East based on various global market perspectives.
  • North America is extensively investing in research and development activities in the 3D printing market. Furthermore, North America is marking the impressive growth in the global 3D printing market because 3D printing is used in the academics and other industries, such as aerospace & defense, automotive, healthcare, jewelry, industrial, consumer products, and energy, where 3D printing is used for developing prototypes and manufacturing end products.
  • North America emerged as the largest market for 3D printing owing to the extensive adoption of additive manufacturing in the region. North American countries, such as the U.S. and Canada have been some of the prominent and early adopters of this technology in various manufacturing processes. This factor is projected to help the region continue holding the largest market share in the forthcoming years. The U.S has the highest revenue generating country in North America. Economic growth and rapid growth in different industries are accelerating growth in the region.
  • Europe region is holding strong technical expertise in additive manufacturing processes. Hence, the European market is expected to continue holding the second largest market share in the forthcoming years.
  • In the Asia Pacific region, increasing the adoption of additive manufacturing, attributed to the developments and upgrades across the manufacturing industry within the region is anticipated to fuel the growth. Also, the rising demand for customized products, government initiatives, and technological advancement are the key factors of market growth in the region.

Key Industry Players:

Leading manufacturers in the global 3D printing market have been analyzed and presented to get informative data on various global market perspectives and applicable business strategies carried out by them. Furthermore, the report sheds light on several factors including company profiling, financial overview, and leading manufacturers in the global market. A professional and dedicated team of Alchemy Market Research makes use of effective research methodologies for examining the global market data.

The following global companies have been profiled to get better insights about effective business strategies carried out by global companies:

  • Stratasys, Ltd
  • Materialize
  • EnvisionTEC, Inc
  • Organovo Holdings, Inc
  • 3D Systems, Inc
  • Canon Inc
  • Voxeljet AG
  • GE Additive
  • Autodesk Inc
  • Ponoko Limited
  • The ExOne Company
  • Hoganas AB
  • Optomec, Inc
  • Made In Space
  • Arcam AB

Key Industry Developments:

  • In September 2018, 3D Systems innovated its software portfolio by releasing the various services such as 3DXpert 14; GibbsCAM 13; Geomagic Freeform 2019; Cimatron 14, 3D Connect Service, Geomagic Design X 2019.

This report answers the following key questions:

  • What is the global 3D printing market?
  • Which factors are encouraging and driving the global 3D printing market?
  • What are the technological advancements and recent trends in the 3D printing market?
  • What is the impact of Covid-19 on the global 3D printing market?
  • What is the contribution from the government sector for enhancing the global 3D printing market growth?
  • What are the major challenges faced by global manufacturers in the 3D printing market?
  • What are the global manufacturers functioning in the global 3D printing market?
  • Which are the major segments accounted for holding the massive share in the global 3D printing market?
  • What were the global market size and market shares in historical years?
  • What will be the global market growth opportunities in the 3D printing market?

Synopsis:

Alchemy Market Research has recently added a fully-fledged analysis of the global 3D printing market to its large volume of database. The global 3D printing market size was estimated at USD 11.42 billion in 2019 and is expected to register a CAGR of 14.2 % over the forecast period. The global market research process includes an effective study of different factors such as global market shares, market size, market trends, market situation, historical data, competitive landscape, and various global market dynamics. Furthermore, this innovative study offers an analysis of the global 3D printing market for making strategic and well-informed decisions in businesses.

Chapter 1.        Executive Summary

 

Chapter 2.        Market Introduction

 

Chapter 3.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – Key Industry Dynamics

3.1.   Key Market Drivers

3.2.   Key Market Restraints

3.3.   Market Opportunities

3.4.   Future Trends

3.5.   Impact Analysis of Drivers and Restraints

Chapter 4.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028

 

Chapter 5.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – By Offerings

5.1.   Printer

5.2.   Service

5.3.   Material

5.4.   Software

Chapter 6.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – By Process

6.1.   Powder Bed Fusion

6.2.   Material Jetting

6.3.   Binder Jetting

6.4.   Directed Energy Deposition

6.5.   Sheet Lamination

6.6.   Material Extrusion

6.7.   Vat Photopolymerization

Chapter 7.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – By Application

7.1.   Prototyping

7.2.   Tooling

7.3.   Functional Part Manufacturing

Chapter 8.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – By Vertical

8.1.   Aerospace & Defense

8.2.   Jewelry

8.3.   Education

8.4.   Engineering

8.5.   Architecture and Construction

8.6.   Printed Electronics

8.7.   Food and Culinary

8.8.   Healthcare

8.9.   Consumer Products

8.10.                                                                  Automotive

8.11.                                                                  Energy

Chapter 9.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – By Technology

9.1.   Stereolithography (SLA)

9.2.   Fused Deposition Modeling (FDM)

9.3.   Inkjet Printing

9.4.   Selective Laser Sintering (SLS)

9.5.   Direct Light Projection (DLP)

9.6.   Laminated Object Manufacturing (LOM)

9.7.   PolyJet/MultiJet Printing (MJP)

9.8.   Electron Beam Melting (EBM)

9.9.   Laser Metal Deposition (LMD)

9.10.                     Other Technologies

9.11.                     Direct Metal Laser Sintering (DMLS)

Chapter 10.    Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – By Region

10.1.            North America

10.2.            Europe

10.3.            Asia-Pacific

10.4.            Latin America

10.5.            Middle East & Africa

Chapter 11.    North America 3D Printing Market– Analysis and Revenue Forecast 2019-2028

11.1.            North America 3D Printing Market– By Offerings

11.1.1.    Printer

11.1.2.    Service

11.1.3.    Material

11.1.4.    Software

11.2.            North America 3D Printing Market– By Process

11.2.1.    Powder Bed Fusion

11.2.2.    Material Jetting

11.2.3.    Binder Jetting

11.2.4.    Directed Energy Deposition

11.2.5.    Sheet Lamination

11.2.6.    Material Extrusion

11.2.7.    Vat Photopolymerization

11.3.            North America 3D Printing Market– By Application

11.3.1.    Prototyping

11.3.2.    Tooling

11.3.3.    Functional Part Manufacturing

11.4.            North America 3D Printing Market– By Vertical

11.4.1.    Aerospace & Defense

11.4.2.    Jewelry

11.4.3.    Education

11.4.4.    Engineering

11.4.5.    Architecture and Construction

11.4.6.    Printed Electronics

11.4.7.    Food and Culinary

11.4.8.    Healthcare

11.4.9.    Consumer Products

11.4.10.                        Automotive

11.4.11.                        Energy

11.5.            North America 3D Printing Market– By Technology

11.5.1.    Stereolithography (SLA)

11.5.2.    Fused Deposition Modeling (FDM)

11.5.3.    Inkjet Printing

11.5.4.    Selective Laser Sintering (SLS)

11.5.5.    Direct Light Projection (DLP)

11.5.6.    Laminated Object Manufacturing (LOM)

11.5.7.    PolyJet/MultiJet Printing (MJP)

11.5.8.    Electron Beam Melting (EBM)

11.5.9.    Laser Metal Deposition (LMD)

11.5.10.                        Other Technologies

11.5.11.                        Direct Metal Laser Sintering (DMLS)

11.6.            North America 3D Printing Market– By Country

11.6.1. U.S.

11.6.2. Canada

Chapter 12.    Europe 3D Printing Market– Analysis and Revenue Forecast 2019-2028

12.1.            Europe 3D Printing Market– By Offerings

12.1.1.    Printer

12.1.2.    Service

12.1.3.    Material

12.1.4.    Software

12.2.            Europe 3D Printing Market– By Process

12.2.1.    Powder Bed Fusion

12.2.2.    Material Jetting

12.2.3.    Binder Jetting

12.2.4.    Directed Energy Deposition

12.2.5.    Sheet Lamination

12.2.6.    Material Extrusion

12.2.7.    Vat Photopolymerization

12.3.            Europe 3D Printing Market– By Application

12.3.1.    Prototyping

12.3.2.    Tooling

12.3.3.    Functional Part Manufacturing

12.4.            Europe 3D Printing Market– By Vertical

12.4.1.    Aerospace & Defense

12.4.2.    Jewelry

12.4.3.    Education

12.4.4.    Engineering

12.4.5.    Architecture and Construction

12.4.6.    Printed Electronics

12.4.7.    Food and Culinary

12.4.8.    Healthcare

12.4.9.    Consumer Products

12.4.10.                        Automotive

12.4.11.                        Energy

12.5.            Europe 3D Printing Market– By Technology

12.5.1.    Stereolithography (SLA)

12.5.2.    Fused Deposition Modeling (FDM)

12.5.3.    Inkjet Printing

12.5.4.    Selective Laser Sintering (SLS)

12.5.5.    Direct Light Projection (DLP)

12.5.6.    Laminated Object Manufacturing (LOM)

12.5.7.    PolyJet/MultiJet Printing (MJP)

12.5.8.    Electron Beam Melting (EBM)

12.5.9.    Laser Metal Deposition (LMD)

12.5.10.                        Other Technologies

12.5.11.                        Direct Metal Laser Sintering (DMLS)

12.6.            Europe 3D Printing Market– By Country

12.6.1.    Germany

12.6.2.    France

12.6.3.    UK

12.6.4.    Spain

12.6.5.    Italy

12.6.6.    Rest of Europe

Chapter 13.    Asia Pacific 3D Printing Market– Analysis and Revenue Forecast 2019-2028

13.1.            Asia Pacific 3D Printing Market– By Offerings

13.1.1.    Printer

13.1.2.    Service

13.1.3.    Material

13.1.4.    Software

13.2.            Asia Pacific 3D Printing Market– By Process

13.2.1.    Powder Bed Fusion

13.2.2.    Material Jetting

13.2.3.    Binder Jetting

13.2.4.    Directed Energy Deposition

13.2.5.    Sheet Lamination

13.2.6.    Material Extrusion

13.2.7.    Vat Photopolymerization

13.3.            Asia Pacific 3D Printing Market– By Application

13.3.1.    Prototyping

13.3.2.    Tooling

13.3.3.    Functional Part Manufacturing

13.4.            Asia Pacific 3D Printing Market– By Vertical

13.4.1.    Aerospace & Defense

13.4.2.    Jewelry

13.4.3.    Education

13.4.4.    Engineering

13.4.5.    Architecture and Construction

13.4.6.    Printed Electronics

13.4.7.    Food and Culinary

13.4.8.    Healthcare

13.4.9.    Consumer Products

13.4.10.                        Automotive

13.4.11.                        Energy

13.5.            Asia Pacific 3D Printing Market– By Technology

13.5.1.    Stereolithography (SLA)

13.5.2.    Fused Deposition Modeling (FDM)

13.5.3.    Inkjet Printing

13.5.4.    Selective Laser Sintering (SLS)

13.5.5.    Direct Light Projection (DLP)

13.5.6.    Laminated Object Manufacturing (LOM)

13.5.7.    PolyJet/MultiJet Printing (MJP)

13.5.8.    Electron Beam Melting (EBM)

13.5.9.    Laser Metal Deposition (LMD)

13.5.10.                        Other Technologies

13.5.11.                        Direct Metal Laser Sintering (DMLS)

13.6.            Asia-Pacific 3D Printing Market– By Country

13.6.1. China

13.6.2. India

13.6.3. Japan

13.6.4. South Korea

13.6.5. Rest of Asia-Pacific

Chapter 14.    Latin America 3D Printing Market– Analysis and Revenue Forecast 2019-2028

14.1.            Latin America 3D Printing Market– By Offerings

14.1.1.    Printer

14.1.2.    Service

14.1.3.    Material

14.1.4.    Software

14.2.            Latin America 3D Printing Market– By Process

14.2.1.    Powder Bed Fusion

14.2.2.    Material Jetting

14.2.3.    Binder Jetting

14.2.4.    Directed Energy Deposition

14.2.5.    Sheet Lamination

14.2.6.    Material Extrusion

14.2.7.    Vat Photopolymerization

14.3.            Latin America 3D Printing Market– By Application

14.3.1.    Prototyping

14.3.2.    Tooling

14.3.3.    Functional Part Manufacturing

14.4.            Latin America 3D Printing Market– By Vertical

14.4.1.    Aerospace & Defense

14.4.2.    Jewelry

14.4.3.    Education

14.4.4.    Engineering

14.4.5.    Architecture and Construction

14.4.6.    Printed Electronics

14.4.7.    Food and Culinary

14.4.8.    Healthcare

14.4.9.    Consumer Products

14.4.10.                        Automotive

14.4.11.                        Energy

14.5.            Latin America 3D Printing Market– By Technology

14.5.1.    Stereolithography (SLA)

14.5.2.    Fused Deposition Modeling (FDM)

14.5.3.    Inkjet Printing

14.5.4.    Selective Laser Sintering (SLS)

14.5.5.    Direct Light Projection (DLP)

14.5.6.    Laminated Object Manufacturing (LOM)

14.5.7.    PolyJet/MultiJet Printing (MJP)

14.5.8.    Electron Beam Melting (EBM)

14.5.9.    Laser Metal Deposition (LMD)

14.5.10.                        Other Technologies

14.5.11.                        Direct Metal Laser Sintering (DMLS)

14.6.            Latin America 3D Printing Market– By Country

14.6.1. Brazil

14.6.2. Mexico

14.6.3. Rest of Latin America

Chapter 15.    Middle East & Africa 3D Printing Market– Analysis and Revenue Forecast 2019-2028

15.1.            Middle East & Africa 3D Printing Market– By Offerings

15.1.1.    Printer

15.1.2.    Service

15.1.3.    Material

15.1.4.    Software

15.2.            Middle East & Africa 3D Printing Market– By Process

15.2.1.    Powder Bed Fusion

15.2.2.    Material Jetting

15.2.3.    Binder Jetting

15.2.4.    Directed Energy Deposition

15.2.5.    Sheet Lamination

15.2.6.    Material Extrusion

15.2.7.    Vat Photopolymerization

15.3.            Middle East & Africa 3D Printing Market– By Application

15.3.1.    Prototyping

15.3.2.    Tooling

15.3.3.    Functional Part Manufacturing

15.4.            Middle East & Africa 3D Printing Market– By Vertical

15.4.1.    Aerospace & Defense

15.4.2.    Jewelry

15.4.3.    Education

15.4.4.    Engineering

15.4.5.    Architecture and Construction

15.4.6.    Printed Electronics

15.4.7.    Food and Culinary

15.4.8.    Healthcare

15.4.9.    Consumer Products

15.4.10.                        Automotive

15.4.11.                        Energy

15.5.            Middle East & Africa 3D Printing Market– By Technology

15.5.1.    Stereolithography (SLA)

15.5.2.    Fused Deposition Modeling (FDM)

15.5.3.    Inkjet Printing

15.5.4.    Selective Laser Sintering (SLS)

15.5.5.    Direct Light Projection (DLP)

15.5.6.    Laminated Object Manufacturing (LOM)

15.5.7.    PolyJet/MultiJet Printing (MJP)

15.5.8.    Electron Beam Melting (EBM)

15.5.9.    Laser Metal Deposition (LMD)

15.5.10.                        Other Technologies

15.5.11.                        Direct Metal Laser Sintering (DMLS)

15.6.            Middle East & Africa 3D Printing Market– By Country

15.6.1. UAE

15.6.2. Saudi Arabia

15.6.3. Turkey

15.6.4. Rest of Middle East & Africa

Chapter 16.    Competitive Analysis

16.1.1. Competition Dashboard

16.1.2. Company Profiles

16.1.2.1.          Stratasys, Ltd

16.1.2.2.          Materialize

16.1.2.3.          EnvisionTec, Inc

16.1.2.4.          Organovo Holdings, Inc

16.1.2.5.          3D Systems, Inc

16.1.2.6.          Canon Inc

16.1.2.7.          Voxeljet AG

16.1.2.8.          GE Additive

16.1.2.9.          Autodesk Inc

16.1.2.10.      Ponoko Limited

16.1.2.11.      The ExOne Company

16.1.2.12.      Hoganas AB

16.1.2.13.      Optomec, Inc

16.1.2.14.      Made In Space

16.1.2.15.       Arcam AB

16.1.2.16.      Autodesk, Inc

16.1.2.17.      Stratasys Ltd

16.1.2.18.      Voxeljet AG

Report Description

Market Insights:

3D printing, also known as desktop fabrication or additive printing technology, allows manufacturers to create objects utilizing a computerized document and distinct printing materials. Various types of polymers, metals, and ceramics are used in 3D printing. 3D printing offers methodologies that can make manufacturing of complex designs an apparent reality.3D printing more popular because of the reduction of errors, decrease in development cost and time, and the ability to build customized products. In addition, an increase in applications in healthcare and various other industries is expected to create lucrative growth opportunities for the 3D printing market. The key players in the 3D printing market area intensely focused on elevating their R&D capacities to develop innovative products for different industries and consolidate their position.3D printing technology carries a variety of benefits for manufacturers. The 3D printers are based on different technologies such as inkjet printing, electron beam melting (EBM),  DMLS, SLS, stereolithography (SLA), selective laser sintering (SLS), direct metal laser sintering (DMLS and FDM is the most widely used 3D printing technologies.

Latest Trends:

The following are the trending factors encouraging the global 3D printing market over the coming years:

  • Favorable government initiatives and investments in 3D printing projects
  • Implementation of new industrial-grade 3D printing materials
  • Increasing adoption of latest technologies such as stereolithography (SLA), selective laser sintering (SLS),  fused deposition modeling (FDM), and direct metal laser sintering (DMLS).
  • Increasing research and development activities by leading key vendors
  • The manufacturing of lightweight vehicle components with the help of 3D printing
  • Increasing developments and upgrades across the manufacturing industry sector
  • Early adopters of 3D technology in different manufacturing processes

Driving Factors:

  • The increasing use of the latest healthcare applications and various other industries is expected to create lucrative growth opportunities for the 3D printing market.
  • The DMLS technology is used in applications such as tooling and manufacturing of fixtures and jigs. This technology creates high-quality metal parts as it facilitates the construction of complex geometries of metals, which makes it ideal for the manufacturing industry. In the aerospace and automotive industries, complex structures such as tooling and machinery parts are developed using DMLS. The detailed resolution, cost-efficient production, and quick and easy handlings are the major drivers for the growth of the market for 3D printing based on DMLS technology.
  • The aggressive R&D in Three-Dimensional Printing (3DP) and growing demand for prototyping applications from various industry verticals, particularly healthcare, automotive, and aerospace and defense, are the factors expected to drive the market growth.
  • The adoption of 3D printers has grown among industry manufactures due to its accuracy in printing objects. The use of this technology will improve primary production stages by identifying errors in the product and increases overall performance ability. It reduces the manufacturing cost and process downtime of industry and drives the growth of the 3D printers market.
  • The healthcare industry widely using this technology to produce complex bio-printed medical items.3D printing technology delivers customized products according to consumer needs with accuracy and well-defined smoothness. This key factor boosts the demand for the 3D market.

Restraining Factors:

  • The high cost of 3D printing and Lack of skilled labor hamper the growth of the market.
  • Prototyping is an expensive phase prior to manufacturing. Such perceptions regarding the prototyping coupled with the lack of technical knowledge and a looming lack of standard process controls are expected to hinder the market growth.

Segmentations:

The global 3D printing market has been bifurcated into different global market segments by examining various perspectives such as offerings, process, application, vertical, technology, and global geographies. Based on offerings, it can be divided into Printer, Service, Material, and Software. Based on the process, it can be divided into Powder Bed Fusion, Material Jetting, Binder Jetting, Directed Energy Deposition, Sheet Lamination, and Material Extrusion. Based on the application, it can be divided into Prototyping, Tooling, and Functional Part Manufacturing. Based on vertical, it can be divided into Aerospace & Defense, Jewelry, Education, Engineering, Architecture and Construction, Food and Culinary, Healthcare, and Printed Electronics.

Offerings Perspective (Revenue in USD Million):

  • Printer
  • Service
  • Material
  • Software

Process Perspective (Revenue in USD Million):

  • Powder Bed Fusion
  • Material Jetting
  • Binder Jetting
  • Directed Energy Deposition
  • Sheet Lamination
  • Material Extrusion
  • Vat Photopolymerization

Application Perspective (Revenue in USD Million):

  • Prototyping
  • Tooling
  • Functional Part Manufacturing

Vertical Perspective (Revenue in USD Million):

  • Aerospace & Defense
  • Jewelry
  • Education
  • Engineering
  • Architecture and Construction
  • Printed Electronics
  • Food and Culinary
  • Healthcare
  • Consumer Products
  • Automotive
  • Energy

Technology Perspective (Revenue in USD Million):

  • Stereolithography (SLA)
  • Fused Deposition Modeling (FDM)
  • Inkjet Printing
  • Selective Laser Sintering (SLS)
  • Direct Light Projection (DLP)
  • Laminated Object Manufacturing (LOM)
  • PolyJet/MultiJet Printing (MJP)
  • Electron Beam Melting (EBM)
  • Laser Metal Deposition (LMD)
  • Other Technologies
  • Direct Metal Laser Sintering (DMLS)

Regional Perspective (Revenue in USD Million):

North America

  • U.S.A
  • Canada

Europe

  • Italy
  • Germany
  • France
  • UK
  • Spain
  • Rest of Europe

Asia-Pacific

  • China
  • India
  • Japan
  • Rest of Asia-Pacific

Latin America

  • Brazil
  • Mexico

Middle East & Africa

  • UAE
  • Saudi Arabia
  • Turkey
  • Rest of Middle East & Africa

Regional Insights:

  • The global 3D printing market has been scrutinized into various global market regions including North America, Asia-Pacific, Africa, and Europe, Latin America, and the Middle East based on various global market perspectives.
  • North America is extensively investing in research and development activities in the 3D printing market. Furthermore, North America is marking the impressive growth in the global 3D printing market because 3D printing is used in the academics and other industries, such as aerospace & defense, automotive, healthcare, jewelry, industrial, consumer products, and energy, where 3D printing is used for developing prototypes and manufacturing end products.
  • North America emerged as the largest market for 3D printing owing to the extensive adoption of additive manufacturing in the region. North American countries, such as the U.S. and Canada have been some of the prominent and early adopters of this technology in various manufacturing processes. This factor is projected to help the region continue holding the largest market share in the forthcoming years. The U.S has the highest revenue generating country in North America. Economic growth and rapid growth in different industries are accelerating growth in the region.
  • Europe region is holding strong technical expertise in additive manufacturing processes. Hence, the European market is expected to continue holding the second largest market share in the forthcoming years.
  • In the Asia Pacific region, increasing the adoption of additive manufacturing, attributed to the developments and upgrades across the manufacturing industry within the region is anticipated to fuel the growth. Also, the rising demand for customized products, government initiatives, and technological advancement are the key factors of market growth in the region.

Key Industry Players:

Leading manufacturers in the global 3D printing market have been analyzed and presented to get informative data on various global market perspectives and applicable business strategies carried out by them. Furthermore, the report sheds light on several factors including company profiling, financial overview, and leading manufacturers in the global market. A professional and dedicated team of Alchemy Market Research makes use of effective research methodologies for examining the global market data.

The following global companies have been profiled to get better insights about effective business strategies carried out by global companies:

  • Stratasys, Ltd
  • Materialize
  • EnvisionTEC, Inc
  • Organovo Holdings, Inc
  • 3D Systems, Inc
  • Canon Inc
  • Voxeljet AG
  • GE Additive
  • Autodesk Inc
  • Ponoko Limited
  • The ExOne Company
  • Hoganas AB
  • Optomec, Inc
  • Made In Space
  • Arcam AB

Key Industry Developments:

  • In September 2018, 3D Systems innovated its software portfolio by releasing the various services such as 3DXpert 14; GibbsCAM 13; Geomagic Freeform 2019; Cimatron 14, 3D Connect Service, Geomagic Design X 2019.

This report answers the following key questions:

  • What is the global 3D printing market?
  • Which factors are encouraging and driving the global 3D printing market?
  • What are the technological advancements and recent trends in the 3D printing market?
  • What is the impact of Covid-19 on the global 3D printing market?
  • What is the contribution from the government sector for enhancing the global 3D printing market growth?
  • What are the major challenges faced by global manufacturers in the 3D printing market?
  • What are the global manufacturers functioning in the global 3D printing market?
  • Which are the major segments accounted for holding the massive share in the global 3D printing market?
  • What were the global market size and market shares in historical years?
  • What will be the global market growth opportunities in the 3D printing market?
Report Synopsis

Synopsis:

Alchemy Market Research has recently added a fully-fledged analysis of the global 3D printing market to its large volume of database. The global 3D printing market size was estimated at USD 11.42 billion in 2019 and is expected to register a CAGR of 14.2 % over the forecast period. The global market research process includes an effective study of different factors such as global market shares, market size, market trends, market situation, historical data, competitive landscape, and various global market dynamics. Furthermore, this innovative study offers an analysis of the global 3D printing market for making strategic and well-informed decisions in businesses.

Table of Content

Chapter 1.        Executive Summary

 

Chapter 2.        Market Introduction

 

Chapter 3.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – Key Industry Dynamics

3.1.   Key Market Drivers

3.2.   Key Market Restraints

3.3.   Market Opportunities

3.4.   Future Trends

3.5.   Impact Analysis of Drivers and Restraints

Chapter 4.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028

 

Chapter 5.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – By Offerings

5.1.   Printer

5.2.   Service

5.3.   Material

5.4.   Software

Chapter 6.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – By Process

6.1.   Powder Bed Fusion

6.2.   Material Jetting

6.3.   Binder Jetting

6.4.   Directed Energy Deposition

6.5.   Sheet Lamination

6.6.   Material Extrusion

6.7.   Vat Photopolymerization

Chapter 7.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – By Application

7.1.   Prototyping

7.2.   Tooling

7.3.   Functional Part Manufacturing

Chapter 8.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – By Vertical

8.1.   Aerospace & Defense

8.2.   Jewelry

8.3.   Education

8.4.   Engineering

8.5.   Architecture and Construction

8.6.   Printed Electronics

8.7.   Food and Culinary

8.8.   Healthcare

8.9.   Consumer Products

8.10.                                                                  Automotive

8.11.                                                                  Energy

Chapter 9.        Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – By Technology

9.1.   Stereolithography (SLA)

9.2.   Fused Deposition Modeling (FDM)

9.3.   Inkjet Printing

9.4.   Selective Laser Sintering (SLS)

9.5.   Direct Light Projection (DLP)

9.6.   Laminated Object Manufacturing (LOM)

9.7.   PolyJet/MultiJet Printing (MJP)

9.8.   Electron Beam Melting (EBM)

9.9.   Laser Metal Deposition (LMD)

9.10.                     Other Technologies

9.11.                     Direct Metal Laser Sintering (DMLS)

Chapter 10.    Global 3D Printing Market– Analysis and Revenue Forecast 2019-2028 – By Region

10.1.            North America

10.2.            Europe

10.3.            Asia-Pacific

10.4.            Latin America

10.5.            Middle East & Africa

Chapter 11.    North America 3D Printing Market– Analysis and Revenue Forecast 2019-2028

11.1.            North America 3D Printing Market– By Offerings

11.1.1.    Printer

11.1.2.    Service

11.1.3.    Material

11.1.4.    Software

11.2.            North America 3D Printing Market– By Process

11.2.1.    Powder Bed Fusion

11.2.2.    Material Jetting

11.2.3.    Binder Jetting

11.2.4.    Directed Energy Deposition

11.2.5.    Sheet Lamination

11.2.6.    Material Extrusion

11.2.7.    Vat Photopolymerization

11.3.            North America 3D Printing Market– By Application

11.3.1.    Prototyping

11.3.2.    Tooling

11.3.3.    Functional Part Manufacturing

11.4.            North America 3D Printing Market– By Vertical

11.4.1.    Aerospace & Defense

11.4.2.    Jewelry

11.4.3.    Education

11.4.4.    Engineering

11.4.5.    Architecture and Construction

11.4.6.    Printed Electronics

11.4.7.    Food and Culinary

11.4.8.    Healthcare

11.4.9.    Consumer Products

11.4.10.                        Automotive

11.4.11.                        Energy

11.5.            North America 3D Printing Market– By Technology

11.5.1.    Stereolithography (SLA)

11.5.2.    Fused Deposition Modeling (FDM)

11.5.3.    Inkjet Printing

11.5.4.    Selective Laser Sintering (SLS)

11.5.5.    Direct Light Projection (DLP)

11.5.6.    Laminated Object Manufacturing (LOM)

11.5.7.    PolyJet/MultiJet Printing (MJP)

11.5.8.    Electron Beam Melting (EBM)

11.5.9.    Laser Metal Deposition (LMD)

11.5.10.                        Other Technologies

11.5.11.                        Direct Metal Laser Sintering (DMLS)

11.6.            North America 3D Printing Market– By Country

11.6.1. U.S.

11.6.2. Canada

Chapter 12.    Europe 3D Printing Market– Analysis and Revenue Forecast 2019-2028

12.1.            Europe 3D Printing Market– By Offerings

12.1.1.    Printer

12.1.2.    Service

12.1.3.    Material

12.1.4.    Software

12.2.            Europe 3D Printing Market– By Process

12.2.1.    Powder Bed Fusion

12.2.2.    Material Jetting

12.2.3.    Binder Jetting

12.2.4.    Directed Energy Deposition

12.2.5.    Sheet Lamination

12.2.6.    Material Extrusion

12.2.7.    Vat Photopolymerization

12.3.            Europe 3D Printing Market– By Application

12.3.1.    Prototyping

12.3.2.    Tooling

12.3.3.    Functional Part Manufacturing

12.4.            Europe 3D Printing Market– By Vertical

12.4.1.    Aerospace & Defense

12.4.2.    Jewelry

12.4.3.    Education

12.4.4.    Engineering

12.4.5.    Architecture and Construction

12.4.6.    Printed Electronics

12.4.7.    Food and Culinary

12.4.8.    Healthcare

12.4.9.    Consumer Products

12.4.10.                        Automotive

12.4.11.                        Energy

12.5.            Europe 3D Printing Market– By Technology

12.5.1.    Stereolithography (SLA)

12.5.2.    Fused Deposition Modeling (FDM)

12.5.3.    Inkjet Printing

12.5.4.    Selective Laser Sintering (SLS)

12.5.5.    Direct Light Projection (DLP)

12.5.6.    Laminated Object Manufacturing (LOM)

12.5.7.    PolyJet/MultiJet Printing (MJP)

12.5.8.    Electron Beam Melting (EBM)

12.5.9.    Laser Metal Deposition (LMD)

12.5.10.                        Other Technologies

12.5.11.                        Direct Metal Laser Sintering (DMLS)

12.6.            Europe 3D Printing Market– By Country

12.6.1.    Germany

12.6.2.    France

12.6.3.    UK

12.6.4.    Spain

12.6.5.    Italy

12.6.6.    Rest of Europe

Chapter 13.    Asia Pacific 3D Printing Market– Analysis and Revenue Forecast 2019-2028

13.1.            Asia Pacific 3D Printing Market– By Offerings

13.1.1.    Printer

13.1.2.    Service

13.1.3.    Material

13.1.4.    Software

13.2.            Asia Pacific 3D Printing Market– By Process

13.2.1.    Powder Bed Fusion

13.2.2.    Material Jetting

13.2.3.    Binder Jetting

13.2.4.    Directed Energy Deposition

13.2.5.    Sheet Lamination

13.2.6.    Material Extrusion

13.2.7.    Vat Photopolymerization

13.3.            Asia Pacific 3D Printing Market– By Application

13.3.1.    Prototyping

13.3.2.    Tooling

13.3.3.    Functional Part Manufacturing

13.4.            Asia Pacific 3D Printing Market– By Vertical

13.4.1.    Aerospace & Defense

13.4.2.    Jewelry

13.4.3.    Education

13.4.4.    Engineering

13.4.5.    Architecture and Construction

13.4.6.    Printed Electronics

13.4.7.    Food and Culinary

13.4.8.    Healthcare

13.4.9.    Consumer Products

13.4.10.                        Automotive

13.4.11.                        Energy

13.5.            Asia Pacific 3D Printing Market– By Technology

13.5.1.    Stereolithography (SLA)

13.5.2.    Fused Deposition Modeling (FDM)

13.5.3.    Inkjet Printing

13.5.4.    Selective Laser Sintering (SLS)

13.5.5.    Direct Light Projection (DLP)

13.5.6.    Laminated Object Manufacturing (LOM)

13.5.7.    PolyJet/MultiJet Printing (MJP)

13.5.8.    Electron Beam Melting (EBM)

13.5.9.    Laser Metal Deposition (LMD)

13.5.10.                        Other Technologies

13.5.11.                        Direct Metal Laser Sintering (DMLS)

13.6.            Asia-Pacific 3D Printing Market– By Country

13.6.1. China

13.6.2. India

13.6.3. Japan

13.6.4. South Korea

13.6.5. Rest of Asia-Pacific

Chapter 14.    Latin America 3D Printing Market– Analysis and Revenue Forecast 2019-2028

14.1.            Latin America 3D Printing Market– By Offerings

14.1.1.    Printer

14.1.2.    Service

14.1.3.    Material

14.1.4.    Software

14.2.            Latin America 3D Printing Market– By Process

14.2.1.    Powder Bed Fusion

14.2.2.    Material Jetting

14.2.3.    Binder Jetting

14.2.4.    Directed Energy Deposition

14.2.5.    Sheet Lamination

14.2.6.    Material Extrusion

14.2.7.    Vat Photopolymerization

14.3.            Latin America 3D Printing Market– By Application

14.3.1.    Prototyping

14.3.2.    Tooling

14.3.3.    Functional Part Manufacturing

14.4.            Latin America 3D Printing Market– By Vertical

14.4.1.    Aerospace & Defense

14.4.2.    Jewelry

14.4.3.    Education

14.4.4.    Engineering

14.4.5.    Architecture and Construction

14.4.6.    Printed Electronics

14.4.7.    Food and Culinary

14.4.8.    Healthcare

14.4.9.    Consumer Products

14.4.10.                        Automotive

14.4.11.                        Energy

14.5.            Latin America 3D Printing Market– By Technology

14.5.1.    Stereolithography (SLA)

14.5.2.    Fused Deposition Modeling (FDM)

14.5.3.    Inkjet Printing

14.5.4.    Selective Laser Sintering (SLS)

14.5.5.    Direct Light Projection (DLP)

14.5.6.    Laminated Object Manufacturing (LOM)

14.5.7.    PolyJet/MultiJet Printing (MJP)

14.5.8.    Electron Beam Melting (EBM)

14.5.9.    Laser Metal Deposition (LMD)

14.5.10.                        Other Technologies

14.5.11.                        Direct Metal Laser Sintering (DMLS)

14.6.            Latin America 3D Printing Market– By Country

14.6.1. Brazil

14.6.2. Mexico

14.6.3. Rest of Latin America

Chapter 15.    Middle East & Africa 3D Printing Market– Analysis and Revenue Forecast 2019-2028

15.1.            Middle East & Africa 3D Printing Market– By Offerings

15.1.1.    Printer

15.1.2.    Service

15.1.3.    Material

15.1.4.    Software

15.2.            Middle East & Africa 3D Printing Market– By Process

15.2.1.    Powder Bed Fusion

15.2.2.    Material Jetting

15.2.3.    Binder Jetting

15.2.4.    Directed Energy Deposition

15.2.5.    Sheet Lamination

15.2.6.    Material Extrusion

15.2.7.    Vat Photopolymerization

15.3.            Middle East & Africa 3D Printing Market– By Application

15.3.1.    Prototyping

15.3.2.    Tooling

15.3.3.    Functional Part Manufacturing

15.4.            Middle East & Africa 3D Printing Market– By Vertical

15.4.1.    Aerospace & Defense

15.4.2.    Jewelry

15.4.3.    Education

15.4.4.    Engineering

15.4.5.    Architecture and Construction

15.4.6.    Printed Electronics

15.4.7.    Food and Culinary

15.4.8.    Healthcare

15.4.9.    Consumer Products

15.4.10.                        Automotive

15.4.11.                        Energy

15.5.            Middle East & Africa 3D Printing Market– By Technology

15.5.1.    Stereolithography (SLA)

15.5.2.    Fused Deposition Modeling (FDM)

15.5.3.    Inkjet Printing

15.5.4.    Selective Laser Sintering (SLS)

15.5.5.    Direct Light Projection (DLP)

15.5.6.    Laminated Object Manufacturing (LOM)

15.5.7.    PolyJet/MultiJet Printing (MJP)

15.5.8.    Electron Beam Melting (EBM)

15.5.9.    Laser Metal Deposition (LMD)

15.5.10.                        Other Technologies

15.5.11.                        Direct Metal Laser Sintering (DMLS)

15.6.            Middle East & Africa 3D Printing Market– By Country

15.6.1. UAE

15.6.2. Saudi Arabia

15.6.3. Turkey

15.6.4. Rest of Middle East & Africa

Chapter 16.    Competitive Analysis

16.1.1. Competition Dashboard

16.1.2. Company Profiles

16.1.2.1.          Stratasys, Ltd

16.1.2.2.          Materialize

16.1.2.3.          EnvisionTec, Inc

16.1.2.4.          Organovo Holdings, Inc

16.1.2.5.          3D Systems, Inc

16.1.2.6.          Canon Inc

16.1.2.7.          Voxeljet AG

16.1.2.8.          GE Additive

16.1.2.9.          Autodesk Inc

16.1.2.10.      Ponoko Limited

16.1.2.11.      The ExOne Company

16.1.2.12.      Hoganas AB

16.1.2.13.      Optomec, Inc

16.1.2.14.      Made In Space

16.1.2.15.       Arcam AB

16.1.2.16.      Autodesk, Inc

16.1.2.17.      Stratasys Ltd

16.1.2.18.      Voxeljet AG

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