Automotive Robotics Market, Global Forecast, Impact of Coronavirus, Industry Trends, by Components, Growth, Opportunity Company Analysis
Robots are now easier to programme and deploy than they have ever been before. Every project comes with an unprecedented challenge. Globally, Car assembly operations and part manufacturers are some of the most significant robotics users in automotive manufacturing. Robots have played a pivotal role in the automotive industry for decades. Robots working alongside humans perform tasks ranging from wielding and inserting parts on an assembly line. According to Renub Research, the Global Automotive Robotics Market will be US$ 14.1 Billion in opportunities by 2027.
Besides, Car manufacturing robots give automotive key players a competitive advantage. They not only improve quality and reduce warranty costs at the same time also protect workers from dangerous jobs. Around the globe, Car assembly line uses robots for welding and painting purpose. However, there is much other use of robots throughout the supply chain process. The most prominent factors that boosted this market's overall growth are rising vehicle production, enhancing cost competitiveness, and wage inflation. However, perception automation pushes unemployment and high penetration in the automotive industry may hamper the market growth.
Automobile manufacturers incorporate robotics into their manufacturing processes because robots provide many benefits on the production line, including enhanced precision, efficiency, flexibility, and reliability. As a outcome of this extensive selection of automotive robotics, the automobile industry has turned to the world's most automated industry and one of the most significant consumers of industrial robots.
Automotive manufacturing robots provide a competitive advantage to automotive firms by improving quality, increasing capacity, lowering warranty costs, and protecting workers from challenging and dangerous duties. Automotive robotics is commonly used in automobile assembly factories for applications such as spot welding, painting, and other tasks; nevertheless, there are several other possibilities.
The automobile industry is focusing its efforts on maximising the benefits of Industry 4.0, in which connected machines communicate with one another and human administrators to ensure efficient and seamless operations. As a result, robotization in the mechanisation industry is propelling the Automotive Robotics Market forward. Industry 4.0 can be defined as a new stage in the evolution of manufacturing. According to Renub research findings, the Global Automotive Robotics Market Size will grow with a healthy CAGR of 11.70% during 2020-2027.
The growth of AI integrated robotics and other data-driven operations will lend to the adoption of automotive robotics worldwide. The American bar association section of Science & technology law hosted a series of presentations on the legal implications of advanced robotics in the car building process industry in 2020. There on, Robotics safety standards are continuously developing for the more complex and specialized environment. The Automotive Robotics Industry was valued at US$ 6.5 Billion in 2020.
COVID-19 Impact on Automotive Robotics Industry
Across the globe, COVID-19 pandemic has severely affected the robotics automation industry because the automotive industry uses most of the automotive robotics. COVID-19 pandemic has hindered the production line because of reduced consumers demand globally. Worldwide, companies have reduced their investment in automation that has impacted much on this industry. As per our analysis, this industry will recover post-COVID, and this market will flourish during the forecast period.
Renub Research report titled “Automotive Robotics Market, Global Forecast by Components (Sensors, Controller, End Effectors, Robotic Arm, Drive, Others), Types (Articulated, Cartesian, Scara, Cylindrical, Others), Application (Welding, Material Handling, Painting, Cutting, Others), Region (North America, Europe, Asia Pacific Middle East & Africa, Latin America), Company (ABB, FANUC CORPORATION, Rockwell Automation, Inc., Seiko Epson Corporation, YASKAWA ELECTRIC CORPORATION)' provides complete insights on Global Automotive Robotics Industry.
Component - Market breakup from 6 viewpoints
1. Sensors
2. Controller
3. End Effector
4. Robotic Arm
5. Drive
6. Others
Types-Market breakup from 5 viewpoints
1. Articulated
2. Cartesian
3. Scara
4. Cylindrical
5. Others
Application-Market breakup from 5 viewpoints
1. Welding
2. Material Handling
3. Painting
4. Cutting
5. Others
Region -Market breakup from 5 viewpoints
1. North America
2. Europe
3. Asia Pacific
4. Middle East & Africa
5. Latin America
Company Insights
1. ABB
2. FANUC CORPORATION
3. Rockwell Automation, Inc.
4. Seiko Epson Corporation
5. Yaskawa Electric Corporation
Besides, Car manufacturing robots give automotive key players a competitive advantage. They not only improve quality and reduce warranty costs at the same time also protect workers from dangerous jobs. Around the globe, Car assembly line uses robots for welding and painting purpose. However, there is much other use of robots throughout the supply chain process. The most prominent factors that boosted this market's overall growth are rising vehicle production, enhancing cost competitiveness, and wage inflation. However, perception automation pushes unemployment and high penetration in the automotive industry may hamper the market growth.
Automobile manufacturers incorporate robotics into their manufacturing processes because robots provide many benefits on the production line, including enhanced precision, efficiency, flexibility, and reliability. As a outcome of this extensive selection of automotive robotics, the automobile industry has turned to the world's most automated industry and one of the most significant consumers of industrial robots.
Automotive manufacturing robots provide a competitive advantage to automotive firms by improving quality, increasing capacity, lowering warranty costs, and protecting workers from challenging and dangerous duties. Automotive robotics is commonly used in automobile assembly factories for applications such as spot welding, painting, and other tasks; nevertheless, there are several other possibilities.
The automobile industry is focusing its efforts on maximising the benefits of Industry 4.0, in which connected machines communicate with one another and human administrators to ensure efficient and seamless operations. As a result, robotization in the mechanisation industry is propelling the Automotive Robotics Market forward. Industry 4.0 can be defined as a new stage in the evolution of manufacturing. According to Renub research findings, the Global Automotive Robotics Market Size will grow with a healthy CAGR of 11.70% during 2020-2027.
The growth of AI integrated robotics and other data-driven operations will lend to the adoption of automotive robotics worldwide. The American bar association section of Science & technology law hosted a series of presentations on the legal implications of advanced robotics in the car building process industry in 2020. There on, Robotics safety standards are continuously developing for the more complex and specialized environment. The Automotive Robotics Industry was valued at US$ 6.5 Billion in 2020.
COVID-19 Impact on Automotive Robotics Industry
Across the globe, COVID-19 pandemic has severely affected the robotics automation industry because the automotive industry uses most of the automotive robotics. COVID-19 pandemic has hindered the production line because of reduced consumers demand globally. Worldwide, companies have reduced their investment in automation that has impacted much on this industry. As per our analysis, this industry will recover post-COVID, and this market will flourish during the forecast period.
Renub Research report titled “Automotive Robotics Market, Global Forecast by Components (Sensors, Controller, End Effectors, Robotic Arm, Drive, Others), Types (Articulated, Cartesian, Scara, Cylindrical, Others), Application (Welding, Material Handling, Painting, Cutting, Others), Region (North America, Europe, Asia Pacific Middle East & Africa, Latin America), Company (ABB, FANUC CORPORATION, Rockwell Automation, Inc., Seiko Epson Corporation, YASKAWA ELECTRIC CORPORATION)' provides complete insights on Global Automotive Robotics Industry.
Component - Market breakup from 6 viewpoints
1. Sensors
2. Controller
3. End Effector
4. Robotic Arm
5. Drive
6. Others
Types-Market breakup from 5 viewpoints
1. Articulated
2. Cartesian
3. Scara
4. Cylindrical
5. Others
Application-Market breakup from 5 viewpoints
1. Welding
2. Material Handling
3. Painting
4. Cutting
5. Others
Region -Market breakup from 5 viewpoints
1. North America
2. Europe
3. Asia Pacific
4. Middle East & Africa
5. Latin America
Company Insights
- Overviews
- Recent developments
- Revenues
1. ABB
2. FANUC CORPORATION
3. Rockwell Automation, Inc.
4. Seiko Epson Corporation
5. Yaskawa Electric Corporation
1. INTRODUCTION
2. RESEARCH & METHODOLOGY
3. EXECUTIVE SUMMARY
4. MARKET DYNAMICS
4.1 Growth Drivers
4.2 Challenges
5. GLOBAL 3D PRINTING MARKET
6. MARKET SHARE - GLOBAL 3D PRINTING ANALYSIS
6.1 By Component
6.2 By Application
6.3 By Vertical
6.4 By Technology
6.5 By Region
7. COMPONENT – GLOBAL 3D PRINTING MARKET
7.1 Products
7.2 Material
7.3 Service
7.4 Other Service
8. APPLICATION - GLOBAL 3D PRINTING MARKET
8.1 Prototyping and Tooling
8.2 R&D and Innovation
8.3 Manufacturing complex Products
9. VERTICAL - GLOBAL 3D PRINTING MARKET
9.1 Automotive
9.2 Aerospace & Defence
9.3 Healthcare
9.4 Consumer Electronics
9.5 Power & Energy
9.6 Others
10. TECHNOLOGY – GLOBAL 3D PRINTING MARKET
10.1 DMLS-(direct metal laser sintering)
10.2 SLS-(selective laser sintering)
10.3 FDM-(fused deposition modeling)
10.4 SLA-(stereolithography)
10.5 EBM-(inkjet printing, electron beam melting)
10.6 MJP-(polyjet/multijet printing)
10.7 Inkjet Printing
10.8 LMD-(laser metal deposition)
10.9 DLP-(digital light processing)
10.10 LOM-(laminated object manufacturing)
10.11 Other Technologies
11. REGION - GLOBAL 3D PRINTING MARKET
11.1 North America
11.2 Europe
11.3 Asia-Pacific
11.4 Rest of World
12. KEY PLAYERS
12.1 3D Systems Corporation
12.1.1 Overview
12.1.2 Recent Development
12.1.3 Revenue
12.2 Sandvik AB
12.2.1 Overview
12.2.2 Recent Development
12.2.3 Revenue
12.3 Voxeljet AG
12.3.1 Overview
12.3.2 Recent Development
12.3.3 Revenue
12.4 Renishaw PLC
12.4.1 Overview
12.4.2 Recent Development
12.4.3 Revenue
12.5 Carpenter Technology Corporation
12.5.1 Overview
12.5.2 Recent Development
12.5.3 Revenue
2. RESEARCH & METHODOLOGY
3. EXECUTIVE SUMMARY
4. MARKET DYNAMICS
4.1 Growth Drivers
4.2 Challenges
5. GLOBAL 3D PRINTING MARKET
6. MARKET SHARE - GLOBAL 3D PRINTING ANALYSIS
6.1 By Component
6.2 By Application
6.3 By Vertical
6.4 By Technology
6.5 By Region
7. COMPONENT – GLOBAL 3D PRINTING MARKET
7.1 Products
7.2 Material
7.3 Service
7.4 Other Service
8. APPLICATION - GLOBAL 3D PRINTING MARKET
8.1 Prototyping and Tooling
8.2 R&D and Innovation
8.3 Manufacturing complex Products
9. VERTICAL - GLOBAL 3D PRINTING MARKET
9.1 Automotive
9.2 Aerospace & Defence
9.3 Healthcare
9.4 Consumer Electronics
9.5 Power & Energy
9.6 Others
10. TECHNOLOGY – GLOBAL 3D PRINTING MARKET
10.1 DMLS-(direct metal laser sintering)
10.2 SLS-(selective laser sintering)
10.3 FDM-(fused deposition modeling)
10.4 SLA-(stereolithography)
10.5 EBM-(inkjet printing, electron beam melting)
10.6 MJP-(polyjet/multijet printing)
10.7 Inkjet Printing
10.8 LMD-(laser metal deposition)
10.9 DLP-(digital light processing)
10.10 LOM-(laminated object manufacturing)
10.11 Other Technologies
11. REGION - GLOBAL 3D PRINTING MARKET
11.1 North America
11.2 Europe
11.3 Asia-Pacific
11.4 Rest of World
12. KEY PLAYERS
12.1 3D Systems Corporation
12.1.1 Overview
12.1.2 Recent Development
12.1.3 Revenue
12.2 Sandvik AB
12.2.1 Overview
12.2.2 Recent Development
12.2.3 Revenue
12.3 Voxeljet AG
12.3.1 Overview
12.3.2 Recent Development
12.3.3 Revenue
12.4 Renishaw PLC
12.4.1 Overview
12.4.2 Recent Development
12.4.3 Revenue
12.5 Carpenter Technology Corporation
12.5.1 Overview
12.5.2 Recent Development
12.5.3 Revenue
LIST OF FIGURES:
Figure-01: Global 3D Printing Market (Million US$), 2016 – 2020
Figure-02: Forecast for – Global 3D Printing Market (Million US$), 2021 – 2027
Figure-03: Component – Products Market (Million US$), 2016 – 2020
Figure-04: Component – Forecast for Products Market (Million US$), 2021 – 2027
Figure-05: Component – Material Market (Million US$), 2016 – 2020
Figure-06: Component – Forecast for Material Market (Million US$), 2021 – 2027
Figure-07: Component – Service Market (Million US$), 2016 – 2020
Figure-08: Component – Forecast for Service Market (Million US$), 2021 – 2027
Figure-09: Component – Other Service Market (Million US$), 2016 – 2020
Figure-10: Component – Forecast for Other Service Market (Million US$), 2021 – 2027
Figure-11: Application – Prototyping and Tooling Market (Million US$), 2016 – 2020
Figure-12: Application – Forecast for Prototyping and Tooling Market (Million US$), 2021 – 2027
Figure-13: Application – R&D and Innovation Market (Million US$), 2016 – 2020
Figure-14: Application – Forecast for R&D and Innovation Market (Million US$), 2021 – 2027
Figure-15: Application – Manufacturing complex Products Market (Million US$), 2016 – 2020
Figure-16: Application – Forecast for Manufacturing complex Products Market (Million US$), 2021 – 2027
Figure-17: Vertical – Automotive Market (Million US$), 2016 – 2020
Figure-18: Vertical – Forecast for Automotive Market (Million US$), 2021 – 2027
Figure-19: Vertical – Aerospace & Defence Market (Million US$), 2016 – 2020
Figure-20: Vertical – Forecast for Aerospace & Defence Market (Million US$), 2021 – 2027
Figure-21: Vertical – Healthcare Market (Million US$), 2016 – 2020
Figure-22: Vertical – Forecast for Healthcare Market (Million US$), 2021 – 2027
Figure-23: Vertical – Consumer Electronics Market (Million US$), 2016 – 2020
Figure-24: Vertical – Forecast for Consumer Electronics Market (Million US$), 2021 – 2027
Figure-25: Vertical – Power & Energy Market (Million US$), 2016 – 2020
Figure-26: Vertical – Forecast for Power & Energy Market (Million US$), 2021 – 2027
Figure-27: Vertical – Others Market (Million US$), 2016 – 2020
Figure-28: Vertical – Forecast for Others Market (Million US$), 2021 – 2027
Figure-29: Technology – DMLS-(direct metal laser sintering) Market (Million US$), 2016 – 2020
Figure-30: Technology – Forecast for DMLS-(direct metal laser sintering) Market (Million US$), 2021 – 2027
Figure-31: Technology – SLS-(selective laser sintering) Market (Million US$), 2016 – 2020
Figure-32: Technology – Forecast for SLS-(selective laser sintering) Market (Million US$), 2021 – 2027
Figure-33: Technology – FDM-(fused deposition modeling) Market (Million US$), 2016 – 2020
Figure-34: Technology – Forecast for FDM-(fused deposition modeling) Market (Million US$), 2021 – 2027
Figure-35: Technology – SLA-(stereolithography) Market (Million US$), 2016 – 2020
Figure-36: Technology – Forecast for SLA-(stereolithography) Market (Million US$), 2021 – 2027
Figure-37: Technology – EBM-(inkjet printing, electron beam melting) Market (Million US$), 2016 – 2020
Figure-38: Technology – Forecast for EBM-(inkjet printing, electron beam melting) Market (Million US$), 2021 – 2027
Figure-39: Technology – MJP-(polyjet/multijet printing) Market (Million US$), 2016 – 2020
Figure-40: Technology – Forecast for MJP-(polyjet/multijet printing) Market (Million US$), 2021 – 2027
Figure-41: Technology – Inkjet Printing Market (Million US$), 2016 – 2020
Figure-42: Technology – Forecast for Inkjet Printing Market (Million US$), 2021 – 2027
Figure-43: Technology – LMD-(laser metal deposition) Market (Million US$), 2016 – 2020
Figure-44: Technology – Forecast for LMD-(laser metal deposition) Market (Million US$), 2021 – 2027
Figure-45: Technology – DLP-(digital light processing) Market (Million US$), 2016 – 2020
Figure-46: Technology – Forecast for DLP-(digital light processing) Market (Million US$), 2021 – 2027
Figure-47: Technology – LOM-(laminated object manufacturing) Market (Million US$), 2016 – 2020
Figure-48: Technology – Forecast for LOM-(laminated object manufacturing) Market (Million US$), 2021 – 2027
Figure-49: Technology – Other Market (Million US$), 2016 – 2020
Figure-50: Technology – Forecast for Other Market (Million US$), 2021 – 2027
Figure-51: North America – 3D Printing Market (Million US$), 2016 – 2020
Figure-52: North America – Forecast for 3D Printing Market (Million US$), 2021 – 2027
Figure-53: Europe – 3D Printing Market (Million US$), 2016 – 2020
Figure-54: Europe – Forecast for 3D Printing Market (Million US$), 2021 – 2027
Figure-55: Asia Pacific – 3D Printing Market (Million US$), 2016 – 2020
Figure-56: Asia Pacific – Forecast for 3D Printing Market (Million US$), 2021 – 2027
Figure-57: Rest of the World – 3D Printing Market (Million US$), 2016 – 2020
Figure-58: Rest of the World – Forecast for 3D Printing Market (Million US$), 2021 – 2027
Figure-59: 3D Systems Corporation – Global Revenue (Million US$), 2016 – 2020
Figure-60: 3D Systems Corporation – Forecast for Global Revenue (Million US$), 2021 – 2027
Figure-61: Sandvik AB – Global Revenue (Million US$), 2016 – 2020
Figure-62: Sandvik AB – Forecast for Global Revenue (Million US$), 2021 – 2027
Figure-63: Voxeljet AG – Global Revenue (Million US$), 2016 – 2020
Figure-64: Voxeljet AG – Forecast for Global Revenue (Million US$), 2021 – 2027
Figure-65: Renishaw PLC – Global Revenue (Million US$), 2016 – 2020
Figure-66: Renishaw PLC – Forecast for Global Revenue (Million US$), 2021 – 2027
Figure-67: Carpenter Technology Corporation – Global Revenue (Million US$), 2016 – 2020
Figure-68: Carpenter Technology Corporation – Forecast for Global Revenue (Million US$), 2021 – 2027
Figure-01: Global 3D Printing Market (Million US$), 2016 – 2020
Figure-02: Forecast for – Global 3D Printing Market (Million US$), 2021 – 2027
Figure-03: Component – Products Market (Million US$), 2016 – 2020
Figure-04: Component – Forecast for Products Market (Million US$), 2021 – 2027
Figure-05: Component – Material Market (Million US$), 2016 – 2020
Figure-06: Component – Forecast for Material Market (Million US$), 2021 – 2027
Figure-07: Component – Service Market (Million US$), 2016 – 2020
Figure-08: Component – Forecast for Service Market (Million US$), 2021 – 2027
Figure-09: Component – Other Service Market (Million US$), 2016 – 2020
Figure-10: Component – Forecast for Other Service Market (Million US$), 2021 – 2027
Figure-11: Application – Prototyping and Tooling Market (Million US$), 2016 – 2020
Figure-12: Application – Forecast for Prototyping and Tooling Market (Million US$), 2021 – 2027
Figure-13: Application – R&D and Innovation Market (Million US$), 2016 – 2020
Figure-14: Application – Forecast for R&D and Innovation Market (Million US$), 2021 – 2027
Figure-15: Application – Manufacturing complex Products Market (Million US$), 2016 – 2020
Figure-16: Application – Forecast for Manufacturing complex Products Market (Million US$), 2021 – 2027
Figure-17: Vertical – Automotive Market (Million US$), 2016 – 2020
Figure-18: Vertical – Forecast for Automotive Market (Million US$), 2021 – 2027
Figure-19: Vertical – Aerospace & Defence Market (Million US$), 2016 – 2020
Figure-20: Vertical – Forecast for Aerospace & Defence Market (Million US$), 2021 – 2027
Figure-21: Vertical – Healthcare Market (Million US$), 2016 – 2020
Figure-22: Vertical – Forecast for Healthcare Market (Million US$), 2021 – 2027
Figure-23: Vertical – Consumer Electronics Market (Million US$), 2016 – 2020
Figure-24: Vertical – Forecast for Consumer Electronics Market (Million US$), 2021 – 2027
Figure-25: Vertical – Power & Energy Market (Million US$), 2016 – 2020
Figure-26: Vertical – Forecast for Power & Energy Market (Million US$), 2021 – 2027
Figure-27: Vertical – Others Market (Million US$), 2016 – 2020
Figure-28: Vertical – Forecast for Others Market (Million US$), 2021 – 2027
Figure-29: Technology – DMLS-(direct metal laser sintering) Market (Million US$), 2016 – 2020
Figure-30: Technology – Forecast for DMLS-(direct metal laser sintering) Market (Million US$), 2021 – 2027
Figure-31: Technology – SLS-(selective laser sintering) Market (Million US$), 2016 – 2020
Figure-32: Technology – Forecast for SLS-(selective laser sintering) Market (Million US$), 2021 – 2027
Figure-33: Technology – FDM-(fused deposition modeling) Market (Million US$), 2016 – 2020
Figure-34: Technology – Forecast for FDM-(fused deposition modeling) Market (Million US$), 2021 – 2027
Figure-35: Technology – SLA-(stereolithography) Market (Million US$), 2016 – 2020
Figure-36: Technology – Forecast for SLA-(stereolithography) Market (Million US$), 2021 – 2027
Figure-37: Technology – EBM-(inkjet printing, electron beam melting) Market (Million US$), 2016 – 2020
Figure-38: Technology – Forecast for EBM-(inkjet printing, electron beam melting) Market (Million US$), 2021 – 2027
Figure-39: Technology – MJP-(polyjet/multijet printing) Market (Million US$), 2016 – 2020
Figure-40: Technology – Forecast for MJP-(polyjet/multijet printing) Market (Million US$), 2021 – 2027
Figure-41: Technology – Inkjet Printing Market (Million US$), 2016 – 2020
Figure-42: Technology – Forecast for Inkjet Printing Market (Million US$), 2021 – 2027
Figure-43: Technology – LMD-(laser metal deposition) Market (Million US$), 2016 – 2020
Figure-44: Technology – Forecast for LMD-(laser metal deposition) Market (Million US$), 2021 – 2027
Figure-45: Technology – DLP-(digital light processing) Market (Million US$), 2016 – 2020
Figure-46: Technology – Forecast for DLP-(digital light processing) Market (Million US$), 2021 – 2027
Figure-47: Technology – LOM-(laminated object manufacturing) Market (Million US$), 2016 – 2020
Figure-48: Technology – Forecast for LOM-(laminated object manufacturing) Market (Million US$), 2021 – 2027
Figure-49: Technology – Other Market (Million US$), 2016 – 2020
Figure-50: Technology – Forecast for Other Market (Million US$), 2021 – 2027
Figure-51: North America – 3D Printing Market (Million US$), 2016 – 2020
Figure-52: North America – Forecast for 3D Printing Market (Million US$), 2021 – 2027
Figure-53: Europe – 3D Printing Market (Million US$), 2016 – 2020
Figure-54: Europe – Forecast for 3D Printing Market (Million US$), 2021 – 2027
Figure-55: Asia Pacific – 3D Printing Market (Million US$), 2016 – 2020
Figure-56: Asia Pacific – Forecast for 3D Printing Market (Million US$), 2021 – 2027
Figure-57: Rest of the World – 3D Printing Market (Million US$), 2016 – 2020
Figure-58: Rest of the World – Forecast for 3D Printing Market (Million US$), 2021 – 2027
Figure-59: 3D Systems Corporation – Global Revenue (Million US$), 2016 – 2020
Figure-60: 3D Systems Corporation – Forecast for Global Revenue (Million US$), 2021 – 2027
Figure-61: Sandvik AB – Global Revenue (Million US$), 2016 – 2020
Figure-62: Sandvik AB – Forecast for Global Revenue (Million US$), 2021 – 2027
Figure-63: Voxeljet AG – Global Revenue (Million US$), 2016 – 2020
Figure-64: Voxeljet AG – Forecast for Global Revenue (Million US$), 2021 – 2027
Figure-65: Renishaw PLC – Global Revenue (Million US$), 2016 – 2020
Figure-66: Renishaw PLC – Forecast for Global Revenue (Million US$), 2021 – 2027
Figure-67: Carpenter Technology Corporation – Global Revenue (Million US$), 2016 – 2020
Figure-68: Carpenter Technology Corporation – Forecast for Global Revenue (Million US$), 2021 – 2027
LIST OF TABLES:
Table-01: Global – 3D Printing Market Share by Component (Percent), 2016 – 2020
Table-02: Global – Forecast for 3D Printing Market Share by Component (Percent), 2021 – 2027
Table-03: Global – 3D Printing Market Share by Application (Percent), 2016 – 2020
Table-04: Global – Forecast for 3D Printing Market Share by Application (Percent), 2021 – 2027
Table-05: Global – 3D Printing Market Share by Vertical (Percent), 2016 – 2020
Table-06: Global – Forecast for 3D Printing Market Share by Vertical (Percent), 2021 – 2027
Table-07: Global – 3D Printing Market Share by Technology (Percent), 2016 – 2020
Table-08: Global – Forecast for 3D Printing Market Share by Technology (Percent), 2021 – 2027
Table-09: Global – 3D Printing Market Share by Region (Percent), 2016 – 2020
Table-10: Global – Forecast for 3D Printing Market Share by Region (Percent), 2021 – 2027
Table-01: Global – 3D Printing Market Share by Component (Percent), 2016 – 2020
Table-02: Global – Forecast for 3D Printing Market Share by Component (Percent), 2021 – 2027
Table-03: Global – 3D Printing Market Share by Application (Percent), 2016 – 2020
Table-04: Global – Forecast for 3D Printing Market Share by Application (Percent), 2021 – 2027
Table-05: Global – 3D Printing Market Share by Vertical (Percent), 2016 – 2020
Table-06: Global – Forecast for 3D Printing Market Share by Vertical (Percent), 2021 – 2027
Table-07: Global – 3D Printing Market Share by Technology (Percent), 2016 – 2020
Table-08: Global – Forecast for 3D Printing Market Share by Technology (Percent), 2021 – 2027
Table-09: Global – 3D Printing Market Share by Region (Percent), 2016 – 2020
Table-10: Global – Forecast for 3D Printing Market Share by Region (Percent), 2021 – 2027
