TECHNICAL POLYMERS FOR 3D PRINTING FILAMENTS

NUREL has established itself as a leader in advanced and technical polymer production. With over 50 years of expertise in polymerization and compounding, NUREL is dedicated to innovating technical polymers and biopolymers, with a strong focus on environmental responsibility.

With an annual production capacity of 49,000 tons of technical compounds, NUREL provides high-value, advanced solutions across multiple applications. Among this production, NUREL offers a specialized range of polymers tailored specifically for 3D printing, designed to meet the unique demands of this field with superior layer adhesion and low moisture absorption.

NUREL’s 3D printing polymers offer a high degree of mechanical properties, dimensional stability, and ease of processing, making them ideal for complex, technical 3D printing applications in a variety of industries.

3D printing is an established technology that can replace the traditional production methods for a wide range of industrial products. Demand for these products is growing, along with the need to develop high-value technical solutions. For this reason, NUREL has developed a comprehensive range of technical materials specifically for 3D printing applications.

Advanced 3D printing offers a cost-effective production method, suitable not only for small-scale manufacturing but also for large-scale industrial production. Polyamides, PETG, PLA, and biopolymers are essential for producing high performance parts in FDM processes.

PRODUCT RANGE

NUREL provides an extensive range of polymers for 3D printing filament extrusion, offering diverse options to meet the most specialized and challenging applications.

This product line includes PA compounds, PET-G, PLA, along with biopolymers and water-soluble biopolymers.

Promyde^® Copolyamides grades

Proxylene^® pet-g stands and pla

INZEA^® biopolymers and water soluble

3D PRINTING TECHNICAL COMPOUNDS

3D PRINTING REINFORCED COMPOUNDS

3D PRINTING BIOPOLYMERS

3D PRINTING WATER-SOLUBLE BIOPOLYMERS

PROMYDE FOR 3D PRINTING FILAMENTS

POLYAMIDES FOR 3D PRINTING

NUREL has developed PA6-based copolyamides specifically for 3D printing applications. These materials combine the exceptional mechanical properties of PA6 with optimal printing conditions and superior processability.

Our copolyamides have been engineered to adjust crystallinity and reduce the melting point to below 220ºC, simplifying the printing process and enhancing part quality.

Promyde® copolymides provide improved layer adhesion and enables printing without a heated bed, while also reducing moisture absorption, warping, and shrinkage typical of standard standard PA6.

NEAT POLYAMIDES

GLASS AND CARBON REINFORCED POLYAMIDES

PROXYLENE FOR 3D PRINTING FILAMENTS

PET-G FOR 3D PRINTING

PET-G is a popular 3D printing material due to its versatility, strong adhesion, and minimal warping, ensuring high-quality results.

Proxylene^® PET-G combines the strength and durability of ABS with the ease of use of PLA, making it ideal for functional parts and prototypes. Its toughness and impact resistance, along with good flexibility, reduce the likelihood of printed parts breaking under stress.

With a higher glass transition temperature of around 80°C, PET-G can withstand higher temperatures without deforming. This makes it a suitable choice for applications requiring exposure to elevated temperatures.

NEAT PET-G

GLASS AND CARBON REINFORCED PET-G

PLA FOR 3D PRINTING

Proxylene^® PLA Proxylene PLA with up to 15% carbon fiber reinforcement is an ideal choice for 3D printing due to its rigidity, strength, and dimensional stability. This material is perfect for lightweight, durable parts with highresolution prints and strong bed and layer adhesion.

The carbon fiber reinforcement makes Proxylene PLA CF well-suited for functional prototypes, end-use parts, and automotive components that need mechanical strength and low weight. With its reduced environmental impact and low shrinkage, it’s an excellent choice for sustainable projects requiring precision and performance.

CARBON REINFORCED PLA

PROMYDE FOR 3D PRINTING FILAMENTS

COMPOSTABLE BIOPOLYMERS for 3d printing

NUREL’s INZEA^® biopolymers for 3D filament provide a bio-based, compostable, and biodegradable solution ideal for a variety of 3D printing applications.

Parts printed with INZEA® biopolymers offer significant mechanical advantages over PLA, including improved adhesion, flexibility, impact resistance, and, for HTS grades, higher thermal resistance.