Powder Bed Fusion Markets and Technologies 2018
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Chapter One: Polymer Powder Bed Fusion Additive Manufacturing Markets and Opportunities
1.1 Global Powder Bed Fusion Hardware Market Landscape and Dynamics in 2018
1.1.1 Current and Forecasted Polymer Powder Bed Fusion 3D Printing Hardware Opportunities
1.1.2 Regional Considerations and Dynamics for Powder Bed Fusion 3D Printing
1.2 Comparing Laser Sintering and Thermal Inkjet Methods in Popular Powder Bed Fusion Applications
1.3 Technical Evolution in Polymer-Based Powder Bed Fusion Printing Move Market in New Directions
1.3.1 Multi-laser Manufacturing Oriented Systems
1.3.2 Multi-material Powder Bed Fusion Printing
1.3.3 Efforts to Integrate Color Printing Solutions
1.3.4 Process Automation Efforts for Polymer Powder Bed Fusion
Chapter Two: Overview of Print Materials Market for Powder Bed Fusion 3D Printing
2.1 Established Powder Bed Fusion Thermoplastics and Polymers
2.1.1 Neat Polyamides and Composite Polyamide Materials (Nylons)
2.1.2 PEEK and PEKK
2.2 Emerging Opportunities in Thermoplastics and Polymers for Powder Bed Fusion
2.2.1 TPU and Elastomeric Polymers
2.2.2 Semicrystalline Polymers – Polypropylene and Polyethylene, and High-Performance Semicrystalline Thermoplastics
2.3 Polymer Powder Bed Fusion Materials Market Sizing and Opportunities
Chapter Three: Review of Major Application Areas and End User Segments for Powder Bed Fusion: 2018 and Beyond
3.1 Polymer Powder Bed Fusion Hardware Metrics by End User Industry
3.2 Polymer Powder Bed Fusion Material Metrics by End User Industry
Chapter Four: Analysis of Leading Competitive Entities in Polymer Powder Bed Fusion Printing
4.1 3D Systems
4.2 EOS
4.3 HP Inc.
4.4 Evonik
4.5 Arkema
4.6 Farsoon
4.7 Prodways
4.8 BASF
4.9 Lehmann & Voss
4.10 Xaar
Appendix A: Discussion of Methodology
A1. Forecasting and Market Tracking Methodologies Used in This Report
This study is the first of its kind to specifically examine polymer powder bed fusion markets for 3D printing, and seeks to identify areas of opportunity which are emerging in the segment at a professional and industrial level across markets of aerospace, automotive, healthcare, print services, consumer products, industrial equipment, and much more. As the global chemical and plastics communities have become increasingly involved, the expansion of available printable polymer powders promises to expand the accessibility of the technology, with materials like polypropylene, PAEK polymers, and various elastomers.
In this report, SmarTech presents a complete market analysis with an emphasis on market data and competitive dynamics of the polymer powder bed fusion 3D printing industry. Market data and forecasts cover hardware and material sales and shipments and installations of printers by geography, machine classification, and end user industry. Those with a stake directly in powder bed fusion 3D printing, as well as those with an interest in the overall polymer 3D printing solutions market, should understand the factors and trends affecting each individual polymer printing technology widely available today in order to best inform strategic direction and investments.
In 2018, the polymer additive manufacturing market is increasingly segmented between several leading print processes, all of which are developing into significant global technology markets for manufacturing. Powder bed fusion technology for the printing of polymers is often considered the most ‘industry ready’ polymer printing process thanks to its unique features and benefits, and as a result the market is beginning to pull the technology into industrial environments on a wider scale.
Developers of powder bed fusion technology, however, face technical challenges to meet the requirements of more serious production deployments, and are now working full speed to address these demands. On the laser sintering side of the market, many are borrowing advancements from metal powder bed fusion over the last few years, a process family that has leapfrogged polymer laser sintering technologies in terms of industrial capabilities. However, an entirely new class of polymer powder bed fusion technology has now officially hit prime time, as HP’s Multi Jet Fusion continues to build a sales backlog, while new efforts from Xaar to commercialize a similar High Speed Sintering technology are now hitting full stride in conjunction with both Stratasys and voxeljet.
For a complete market analysis of polymer 3D printing overall, inclusive of all technologies, refer to SmarTech Publishing’s recent report Additive Manufacturing with Polymers and Plastics 2018.