The 3D Printing High-Performance Plastic Market is expected to grow from USD 73.5 million in 2020 to USD 204 million by 2026 at a CAGR of 22.9% from 2020 to 2026.
3D high performance plastics are specially designed plastics with high mechanical strength, chemical resistance, and, most-importantly, temperature resistance. Stability at high temperature is the key criterion used to differentiate high performance plastics from ordinary plastics. Most of the 3D high performance polymers are manufactured by the polycondensation process as amorphous, semi-crystalline or liquid crystalline polymers. The key types of HPPs are fluoropolymers, high performance polyamides, polyphenylene sulfide, liquid crystal polymers, sulfone polymers, aromatic ketone polymers, and poly-imide. 3D printing technology is considered as one of key transformative innovations in the current scenario. In many end-use industries, such as electrical and electronics, oil and gas, transport, medical and healthcare, defense, and aerospace, it is constantly expanding its base. It is anticipated that increased use of 3D printing technology in these sectors will result in the rising demand for 3D printing materials. This factor is projected to work in favor of the global 3D printing high performance plastic market over the forecasted period. These materials have the ability to resist extreme temperature conditions and are highly useful for making intricate and complex components. This factor is anticipated to surge the demand for 3D printing high performance plastic in the forthcoming years, which is expected to augur well for the global 3D printing high performance plastic market. The demand for this high-performance plastic is majorly led by medical and healthcare sector. In order to satisfy human healthcare requirements, the sector continuously seeks to launch innovative technologies and products. The rising compatibility of high-performance 3D printing plastics such as polyamide has increased its usage to support the growth of the market in the production of medical equipment, surgical tools, tissue engineering materials and prosthetics and implants. These factors are also likely to contribute to growth of the global 3D printing high performance plastic market. Apart from this, the environmental concerns associated to disposable of 3D printed plastics are likely to hamper the market
Furthermore, the demand for reinforced 3D printing high performance plastics is growing for functional part manufacturing. Thus, it is creating lucrative growth opportunities for the 3D printing high performance plastic market growth. These grades provide optimum performance in extreme conditions such as corrosive and high temperature/pressure environments. Carbon fibers and glass fibers are included to PEEK, PEKK, and polyamide to improve their performance.
The global 3D Printing High-Performance Plastic Market is segregated on the basis of Type as Polyamide (PA), Polyetheramide (PEI), Polyetheretherketone (PEEK) & Polyetherketoneketone (PEKK), Reinforced HPPs and Others (PPSU, PAI, PSU, PES). Based on Form the global 3D Printing High-Performance Plastic Market is segmented in Filament & Pellet and Powder. Based on Technology the global 3D Printing High-Performance Plastic Market is segmented in Fused Deposition Modelling (FDM) and Selective Laser Sintering (SLS). Based on Application the global 3D Printing High-Performance Plastic Market is segmented in Prototyping, Tooling and Functional Part Manufacturing.
The global 3D Printing High-Performance Plastic Market report provides geographic analysis covering regions, such as Europe, North America, Asia Pacific, and Rest of The World. The 3D Printing High-Performance Plastic Market for each region is further segmented for major countries including the U.S., Canada, Germany, the U.K., France, Italy, China, India, Japan, Brazil, South Africa, and others.
Competitive Analysis
3D Systems Corporation, 3D4Makers, 3DXTECH, Arkema S.A., BASF New Business GmbH and others are among the major players in the global 3D Printing High-Performance Plastic Market. The companies studied in terms of product strategy and various n several growth and expansion strategies to gain a competitive edge in the market. The major players not only follow value chain integration with business operations in multiple stages of the value chain.
The global 3D Printing High-Performance Plastic Market has been segmented as below:
3D Printing High-Performance Plastic Market, By Type
3D Printing High-Performance Plastic Market, By Form
3D Printing High-Performance Plastic Market, By Technology
3D Printing High-Performance Plastic Market, By Application
3D Printing High-Performance Plastic Market, By Region
3D Printing High-Performance Plastic Market, By Company
The report covers the below scope:
The years considered for the study are as follows:
Report Scope:
The global 3D Printing High-Performance Plastic Market report scope includes detailed study covering underlying factors influencing the industry trends. The report covers analysis on regional and country level market dynamics. The scope also covers competitive overview providing company market shares along with company profiles for major revenue contributing companies. The report scope includes detailed competitive outlook covering market shares and profiles key participants in the global 3D Printing High-Performance Plastic Market share. Major industry players with significant revenue share include 3D Systems Corporation, 3D4Makers, 3DXTECH, Arkema S.A., BASF New Business GmbH and others.
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1. Introduction
1.1. Key Points
1.2. Report Description
1.3. Markets Covered
1.4. Stakeholders
2. Research Methodology
2.1. Research Scope
2.2. Research Methodology
2.2.1. Market Research Process
2.2.2. Research Methodology
2.2.2.1. Secondary Research
2.2.2.2. Primary Research
2.2.2.3. Models for Estimation
2.3. Market Size Estimation
2.3.1. Bottom-Up Approach
2.3.2. Top-Down Approach
3. Executive Summary
4. Market Overview
4.1. Introduction
4.2. Drivers
4.3. Restraints
4.4. Opportunities
4.5. Challenges
5. 3D Printing High-Performance Plastic Market, By Type
5.1. Key Points
5.2. Polyamide (PA)
5.3. Polyetheramide (PEI)
5.4. Polyetheretherketone (PEEK) & Polyetherketoneketone (PEKK)
5.5. Reinforced HPPs
5.6. Others (PPSU, PAI, PSU, PES)
6. 3D Printing High-Performance Plastic Market, By Form
6.1. Key Points
6.2. Filament & Pellet
6.3. Powder
7. 3D Printing High-Performance Plastic Market, By Technology
7.1. Key Points
7.2. Fused Deposition Modelling (FDM)
7.3. Selective Laser Sintering (SLS)
8. 3D Printing High-Performance Plastic Market, By Application
8.1. Key Points
8.2. Prototyping
8.3. Tooling
8.4. Functional Part Manufacturing
9. Competitive Landscape
9.1. Introduction
9.2. Start-up companies- 3D Printing High-Performance Plastic Market
9.3. Recent Developments
9.3.1. Mergers & Acquisitions
9.3.2. New Product Developments
9.3.3. Portfolio/Production Capacity Expansions
9.3.4. Joint Ventures, Collaborations, Partnerships & Agreements
9.3.5. Others
10. Company Profile
10.1. 3D Systems Corporation
10.2. 3D4Makers
10.3. 3DXTECH
10.4. Arkema S.A.
10.5. BASF New Business GmbH
10.6. DuPont
10.7. EOS GmbH Electro Optical Systems
10.8. Evonik Industries AG
10.9. Lehman & Voss &Co.
10.10.Oxford Performance Materials
10.11. Royal DSM N.V.
10.12. SABIC (Saudi Arabia Basic Industries Corporation)
10.13. Solvay Group
10.14. Stratasys, Ltd.
10.15. Toray
10.16. Treed Filaments
10.17. Victrex plc
3D Printing High-Performance Plastic Market, By Type
3D Printing High-Performance Plastic Market, By Form
3D Printing High-Performance Plastic Market, By Technology
3D Printing High-Performance Plastic Market, By Application
3D Printing High-Performance Plastic Market, By Company