Material route for application and process review.
VICTREX AM™ 200 is an advanced polyaryletherketone (PAEK) filament designed specifically for industrial additive manufacturing. As part of the PEEK polymer family and based on LMPAEK™ technology, it is formulated to address the common challenges of printing specified thermoplastics. Its key differentiator is a composition optimized to improve interlayer adhesion, which significantly reduces the anisotropy typically seen in FDM parts and enhances overall Z-axis strength for more reliable, isotropic components.
Parts printed with VICTREX AM™ 200 exhibit outstanding mechanical integrity and thermal stability, making them suitable for high-load and high-temperature operating environments. The material maintains its structural properties under significant stress and demonstrates high wear resistance, ensuring longevity and reliability for demanding functional applications.
Engineered for durability in harsh conditions, this material provides excellent resistance against a broad spectrum of industrial chemicals, including solvents, fuels, and corrosive fluids. This makes it a premier choice for components used in automotive, oil and gas, and chemical processing industries where chemical exposure is a constant.
VICTREX AM™ 200 is validated for use on industrial FDM systems and is compatible with both SR-100 soluble support and SUP8000B breakaway support materials. This dual support compatibility provides design freedom for complex geometries and simplifies the post-processing workflow. The material's low moisture absorption contributes to its dimensional accuracy and stability, ensuring consistent and predictable print outcomes.
The unique combination of specified, durability, and printability positions VICTREX AM™ 200 as an ideal material for the entire product lifecycle. It is suitable for creating high-fidelity functional prototypes that can withstand rigorous testing, as well as for manufacturing tools, jigs, fixtures, and low-volume end-use parts where performance cannot be compromised.
