Market Opportunities for Additive Manufacturing in the General Industry and Tooling Sector (2020 to 2029) - ResearchAndMarkets.com
The "Market Opportunities for Additive Manufacturing in the General Industry and Tooling Sector - 2020-2029" report has been added to ResearchAndMarkets.com's offering.
Additive manufacturing (AM) has the potential to have a profound impact on the general industry and tooling sector, yet OEMs in the market are only now beginning to fully grasp the potential. This is the first report to fully characterize the market for AM in the general industry and tooling sector, quantifying the revenue opportunities and levels of AM adoption in the sector using AM hardware, materials, and services through 2029.
Based on interviews, secondary sources, a large database of industry-specific information, and a deep understanding of available AM technologies, materials and applications, the analyst provides a detailed sub-segment analysis of the current state of AM in one of the broadest manufacturing sectors, while also providing future projections for the industry as a whole. This includes the dynamics of industry-specific trends, such as those related to cutting tools, metallurgy equipment, and heavy machinery.
The analyst begins with an analysis of AM hardware adoption patterns and trajectories for the industry, examining polymer and metal systems, including the sub-segments related to key technologies within those categories, such as polymer powder bed fusion and bound metal deposition AM processes. We then track the state of AM materials, including those metals that represent the largest revenue opportunity for the sector.
Key Topics Covered:
1. Market Opportunities for Additive Manufacturing in the General Industry and Tooling Sector
1.1 Opportunities for AM to Enter the General Industry and Tooling Supply Chain
1.1.2 General Industry and Tooling AM Adoption Pattern
1.1.3 AM Technologies for the General Industry and Tooling Market
1.1.4 Key Benefits of AM for General Industry and Tooling
1.1.5 Examples of Practical Applications of AM in General Industry and Tooling
1.1.6 Ten-year Forecast of Overall Market Opportunity for AM in General Industry and Tooling
1.2 Forecast Methodology
1.3 Key Points from this Chapter
2. AM Technologies and Materials Driving General Industry and Tooling Sector Innovation
2.1 AM Technologies for the General Industry and Tooling Sector Considered in This Report
2.1.1 Other AM Technologies That Could Become Relevant Long Term
2.1.2 Key AM Technological Features Driving Investments in the General Industry and Tooling Sector
2.1.2.1 Tool-less Manufacturing
2.1.2.2 Geometric Freedom
2.1.2.3 No Subassemblies
2.1.2.4 No Inventory
2.1.3 Ten-year Forecast for All AM Hardware in General Industry and Tooling
2.2 Latest Evolutions of Polymer AM Technologies Used in General Industry and Tooling
2.2.1 Latest Evolutionary Trends in Polymer AM Hardware Technologies for General Industry and Tooling Applications
2.2.1.1 Material Extrusion Has Established Leadership
2.2.1.2 Fast Growth of Vat Photopolymerization for End-Use Part Production
2.2.1.3 Will Polymer Powder Bed Fusion be Fit for Production in General Industry and Tooling?
2.2.2 Ten-year Forecast for Polymer AM Hardware in General Industry and Tooling
2.3 Metal AM Technologies Used in General Industry and Tooling
2.4 Overview of Materials Used for AM in the General Industry and Tooling Market
2.5 Polymer and Composite Materials in General Industry and Tooling
2.6 Metal Materials for General Industry and Tooling
2.7 Key Points from this Chapter
3. Servicing the General Industry and Tooling Sector with AM Parts
3.1 Analysis of Typical AM Parts for General Industry and Tooling
3.1.1 Advanced Prototyping and Modelling
3.1.2 Molds, Cast Patterns, Jigs, and Fixtures
3.1.3 Drill Bits, Cutting Tools and Other Machine Tool Components
3.1.4 End of Arm Tooling
3.1.5 Industrial Heat Exchangers and Burners
3.1.6 Connectors, Clamps, and Mounts
3.1.7 Ten-year Forecast for Additive Manufacturing Service Revenues in the General Industry and Tooling Sector
3.2 Application Trends in AM Adoption in General Industry and Tooling
3.2.1 3D Printing Molds and Dies
3.2.2 3D-printed Spare Parts for Heavy Machinery
3.2.3 Cross-Pollination Across Manufacturing Divisions
3.2.4 The Rise of Integrated Service Bureaus
3.2.5 Unique Cases for 3D-Printed Polymer End Parts
3.2.6 The Case for Additive Cutting Tools
3.3 OEM Companies and AM Services Profiles in the General Industry and Tooling Supply Chain
3.3.1 Recent Activity in AM by General Industry and Tooling OEMs
3.3.2 Recent Activity in AM by Key General Industry and Tooling Suppliers and Stakeholders
3.4 Key Points from this Chapter
Companies Mentioned
- Additive Industries/SMS Group
- Carbon
- CNH Industrial
- Caterpillar
- CNH Industrial
- Cummins Inc.
- Desktop Metal
- EOS
- Emerson Electric
- GE Additive
- GKN Additive
- Guhring UK
- HP
- Kennametal
- Kueppers Solutions
- Mapel
- Markforged
- Parmatech
- Phoenix Contact
- Oerlikon
- Sandvik
- Siemens
- SMS Group
- Volvo CE
- Wabtec
- Xaar
-
Xylem
For more information about this report visit https://www.researchandmarkets.com/r/4ormqy
View source version on businesswire.com: https://www.businesswire.com/news/home/20200421005440/en/
