2026 Global: 3D Printing High Performance Plastic Market-Competitive Review (2032) report

The 2026 Global: 3D Printing High Performance Plastic Market-Competitive Review (2031) report features the global market size and projected growth/decline data for the period 2021 through 2032. The report primarily provides an examination of the business strategies for the ten largest global companies in the market and how their strategies differ.

Perry/Hope Partners' reports provide the most accurate industry forecasts based on our proprietary economic models. Our forecasts project the product market size nationally and by regions for 2021 to 2032 using regression analysis in our modeling. and Perry/Hope is the only market research publisher that utilizes both longitudinal (historical) and vertical (from market section to market division to market class) analysis, since we study every manufactured product in the countries we analyze. The report also provides written analysis on the market definition, market segments, and SWOT analysis (market strengths, weaknesses, opportunities, and threats).

The market study aims at estimating the market size and the growth potential of this market. Topics analyzed within the report include a detailed breakdown of the global markets for 3d printing high performance plastic market by geography and historical trend. The scope of the report extends to sizing of the 3d printing high performance plastic market market and global market trends with market data for 2024 as the base year, 2025 and 2026 as the estimate years with projection of CAGR from 2027 to 2032.

The report also features a list of the top ten largest global players in the market. A review of each company includes 1) an estimate of the market share, 2) a listing of the products and/or services in the market, and 3) the features of these products and/or services in the market. The report has a chapter on Comparative Business Strategies for the largest four players. An example of the Comparative Business Strategies analysis would be -- How does Netflix's business strategy to expand its market share in the global online streaming compare to Amazon Prime's business strategy through its video products and services?

The ten market players in this report and a brief synopsis of their participation in the market are:

3D Systems Corporation, Stratasys Ltd., Markforged, EOS, and HP Inc. are among the ten major companies driving the 3D printing high-performance plastic market, each offering distinct hardware, materials, and service ecosystems that target industrial applications such as aerospace, automotive, and medical devices. 3D Systems provides a broad portfolio spanning stereolithography and engineered thermoplastics suited for functional prototypes and end-use parts. Stratasys is notable for its FDM and PolyJet platforms and extensive high-performance thermoplastics lineup (including ULTEM/PEI and polycarbonate grades) that serve aerospace and automotive customers requiring heat resistance and dimensional stability. Markforged specializes in composite and fiber‑reinforced thermoplastic systems that enable metal-replacement parts with high strength-to-weight ratios for tooling and functional components. EOS, a leader in industrial polymer laser sintering, supplies powder‑based high-performance polymers and validated process packages for serial production in demanding sectors. HP brings multi‑jet fusion and polymer development capabilities focused on throughput and material consistency for production-grade nylon and engineered plastics.

Evonik Industries, Arkema, SABIC, Victrex, and Ensinger round out the top ten as material-focused and integrated suppliers that expand the performance envelope of additive polymers through specialty resins, filaments, and powders. Evonik leverages its Smart Materials business to deliver PEEK, high‑temperature nylons, and medical‑grade filaments and powders for clinical and aerospace use cases. Arkema’s R&D and broad material portfolio — including PEKK/PEEK derivatives, PA11/PA12 powders, and specialty photopolymers — position it as a leading supplier for industrial additive manufacturing and qualified part production. SABIC supplies engineering thermoplastics and powdered/polymer feedstocks optimized for powder bed fusion and extrusion processes, supporting scale-up in automotive and consumer applications. Victrex is a specialist in PEEK and high‑performance polyaryletherketones (PAEKs), offering AM‑ready filaments and powders for high‑temperature, chemically resistant end‑use parts in medical and energy sectors. Ensinger focuses on compounded high‑performance plastics and semi‑finished AM materials that enable customized formulations and mechanical properties for niche industrial requirements.

Collectively these ten companies combine printer OEM capabilities, validated material systems, and application engineering to accelerate industrial adoption of high‑performance polymer additive manufacturing and to support market growth projected strongly over the coming decade. OEMs such as Stratasys, 3D Systems, EOS, HP, and Markforged emphasize system reliability, part qualification pathways, and service networks that integrate with enterprise manufacturing, while material specialists — Evonik, Arkema, SABIC, Victrex, and Ensinger — prioritize polymer chemistry, feedstock quality, and regulatory/industry certifications to enable certified end‑use production in regulated industries. This convergence of hardware, materials, and application know‑how is driving broader use of PEEK, PEKK, high‑temperature nylons, and engineered composites in serial production, lightweighting, and replacement of metal components across aerospace, medical, and industrial markets. Show more