COEX 3D ABS+ (also known as ABS Prime) is an industrial-grade thermoplastic 3D printing filament designed for demanding environments that require extreme durability and high mechanical performance. Manufactured from an upgraded, premium-tier base resin, COEX 3D ABS+ delivers significantly higher impact resistance, structural integrity, and tougher finished prints compared to standard ABS filaments. It is a trusted staple across rapid prototyping and additive manufacturing environments to evaluate product resilience, stress handling, and functional lifespan.
This is Natural ABS+—an uncolored, translucent-white raw filament that contains no added color pigments. Because it lacks masterbatch color additives, Natural ABS+ preserves the polymer's purest mechanical traits, resulting in exceptional inter-layer bonding and chemical consistency. Its clean, unpigmented finish makes it highly popular for industrial verification, translucent structural housings, fluids tracking, and components that require downstream post-processing or custom dye work.
Printing Note: As an advanced engineering material, ABS+ is a bit more technical to handle than PLA or PETG. It requires a heated build plate and the use of an enclosed 3D printer to maintain a warm ambient temperature, which properly controls cooling, minimizes shrinkage, and prevents part warping.
Key Applications
Functional Prototyping: Perfect for verifying snap-fits, enclosures, and structural integrity under high physical loads.
Industrial Tooling & Jigs: Reliable toughness for factory-floor components, custom fixtures, and manufacturing aids.
Pure Material Testing: Ideal for visual inspection of internal geometries or infill patterns thanks to its natural, unpigmented transparency.
Technical Specifications & Features
Material Type: Premium Acrylonitrile Butadiene Styrene (ABS+ / ABS Prime)
Color Profile: Natural (Unpigmented Translucent Off-White)
Material Characteristics: Enhanced impact resistance, superior heat deflection, and excellent raw material purity.
Hardware Requirements: Heated bed and enclosed 3D printer required. Proper ventilation or filtration recommended.