Push Plastic Nylon is a high-performance, engineering-grade filament engineered for the most demanding functional applications. Formulated specifically for the unique rigors of 3D printing, our Nylon provides an exceptional balance of mechanical strength, high thermal threshold, and superior chemical resistance. This is the material of choice when your prints need to survive in harsh environments or endure heavy mechanical stress.
Designed for professional performance, this Nylon filament features excellent wear and abrasion resistance, making it ideal for moving parts, custom bushings, high-stress brackets, or any application where standard plastics like PLA or PETG simply won't suffice. Despite its industrial-grade characteristics, this Nylon is optimized for versatility; it boasts high heat resistance while remaining printable without the absolute requirement of a heated chamber, opening up new possibilities for your desktop 3D printer.
Compatibility Note: Our 1kg spools are designed with a streamlined geometry, making them fully compatible with most multi-material systems, including the Bambu Lab AMS.
Key Features & Advantages
Superior Engineering Properties: Exceptional thermal, mechanical, and chemical resistance for truly functional end-use parts.
Wear-Resistant: Formulated for high durability in high-friction environments, offering excellent abrasion resistance.
Multi-Material Friendly: Standard 1kg spool sizing ensures compatibility with popular multi-material auto-feeding systems like the Bambu Lab AMS.
High Heat Resistance: Withstands elevated operating temperatures, perfect for mechanical components that generate heat or endure warm environments.
Technical Specifications
Material Type: Engineering-Grade Nylon
Spool Weight: 1kg
Diameter: 1.75mm
Extruder Temperature: 250°C – 275°C
Bed Temperature: 90°C – 110°C
Pro Tip: Nylon is hygroscopic and sensitive to moisture. We recommend storing your filament in a dry box or vacuum-sealed bag with desiccant when not in use to ensure optimal print quality and layer adhesion.