Acrylonitrile butadiene styrene (ABS) is a common thermoplastic polymer used to produce lightweight and rigid objects, as well as enclosures for electrical and electronic component assemblies. ABS is a copolymer derived from the polymerization of styrene and acrylonitrile in the presence of polybutadiene, which makes it a terpolymer. The composition typically ranges from 15% to 35% acrylonitrile, 5% to 30% butadiene, and 40% to 60% styrene. Fine ABS plastic granules—smaller than one micrometer—are also used in tattoo inks due to their particularly vivid coloration.

ALUFORM is a thermoplastic material reinforced with metal powders, offering superior rigidity, excellent mechanical strength, and an aluminum-like appearance. Its matte metallic gray surface with a slightly grainy texture provides a technical and professional aesthetic, ideal for functional prototypes and visually striking components. It is particularly suited for structural parts, mechanical supports, and applications where the combination of lightness and strength is critical. Using SLS technology, complex geometries can be produced without supports, ensuring high dimensional precision and high-performance isotropic parts.

Black & Transparent Rubber is an elastomeric photopolymer resin that combines high flexibility, deformation resistance, and consistent elastic recovery. It features a smooth, uniform surface, available in matte black or amber-transparent, making it ideal for functional prototypes and soft-touch elements. This material is perfect for gaskets, cushioning components, ergonomic parts, and applications requiring controlled elasticity. Produced using DLP technology, it allows for precise details, thin walls, and smooth surfaces while maintaining the material`s elastic properties.

Black & Transparent Rubber is an elastomeric photopolymer resin that combines high flexibility, deformation resistance, and consistent elastic recovery. It features a smooth, uniform surface, available in matte black or amber-transparent, making it ideal for functional prototypes and soft-touch elements. This material is perfect for gaskets, cushioning components, ergonomic parts, and applications requiring controlled elasticity. Produced using DLP technology, it allows for precise details, thin walls, and smooth surfaces while maintaining the material`s elastic properties.

HR PA 12 is a high-performance thermoplastic material known for its excellent mechanical strength, dimensional stability, and long-term durability. It features a uniform dark gray surface with a slightly rough texture typical of MJF printing, which can be smoothed or painted to enhance appearance. This material is ideal for functional components, structural parts, and prototypes intended for mechanical testing or final assembly. MJF technology enables the production of precise, isotropic, support-free parts, optimizing both production time and cost.

PA 12 is a versatile thermoplastic polymer valued for its excellent impact and fatigue resistance combined with good dimensional stability. Its matte white surface with a slightly grainy texture gives it a technical appearance, ideal for functional prototypes and experimental parts. This material is particularly suitable for complex engineering components, lightweight mechanical parts, and objects designed for real-world testing conditions. Thanks to SLS technology, complex geometries can be produced without supports, ensuring high precision and strong, isotropic parts.

PA12 GF is a glass fiber-reinforced variant of PA12, offering superior rigidity, increased bending strength, and enhanced load-bearing capacity while maintaining lightness and durability. Its white surface with a slightly grainy, technical-industrial texture highlights the material`s robustness. This material is ideal for structural components, critical mechanical parts, and engineering applications subject to high stress, where dimensional stability is essential. Produced using SLS technology, it allows the creation of complex, strong parts without the need for supports, ensuring precision and consistent performance.

PLA (Polylactic Acid) is a lactic acid–based polymer commonly used in rapid prototyping through FDM technology, thanks to its unique chemical and physical properties. It melts at around 180°C and offers mechanical performance between that of PET and polystyrene. PLA is biodegradable through hydrolysis when exposed to temperatures above 60°C and humidity levels exceeding 20%.

Rigid Black & Gray Resin is a photopolymer material designed to offer high rigidity, dimensional accuracy, and shape stability. It features a smooth surface with an intense, uniform color, giving prototypes a professional and well-defined appearance. This material is ideal for detailed mechanical components, functional models, and aesthetic parts requiring high-quality finishes. Produced using DLP technology, it delivers fine details, sharp edges, and smooth surfaces, with fast and consistent production times.

Rigid Black HT Resin is a high-performance photopolymer material designed to withstand elevated temperatures while maintaining rigidity and dimensional stability. Its smooth, matte black surface gives parts a professional and uniform appearance, making it ideal for functional prototypes and components exposed to thermal stress. It is particularly suitable for mechanical parts, test models, and applications requiring stability and resistance to heat and deformation. Produced using DLP technology, it ensures precise details, sharp edges, and high-quality finishes.

SIMIL-ABS White is a high-performance photopolymer resin that accurately reproduces the aesthetic and mechanical properties of traditional ABS. It features a smooth surface, a uniform matte white finish, and excellent dimensional stability. Thanks to its good impact and tensile strength, it is ideal for functional prototypes, technical components, and assembly validation. Produced using SLA technology, it ensures outstanding precision, fine detail, and a superior surface finish compared to FDM materials.

SIMIL-ABS Transparent is a photopolymer resin that combines high transparency with excellent detail definition, making it ideal for both aesthetic and functional prototypes. Its glossy, crystal-clear finish allows for realistic simulation of translucent plastic components such as covers, housings, or optical parts. The material offers good rigidity, mechanical strength, and dimensional accuracy while maintaining a refined, professional appearance. Produced using SLA technology, it ensures geometric precision and perfectly smooth surfaces.

TPE is a thermoplastic elastomer that combines flexibility and resilience, with excellent resistance to repeated deformation and moderate mechanical stress. Its matte white surface with a slightly grainy texture gives a technical and professional appearance, making it suitable for functional prototypes and soft-touch components. It is ideal for ergonomic parts, gaskets, flexible components, and products requiring comfort and mechanical adaptability. Produced using SLS technology, it ensures complex geometries, mechanical isotropy, and dimensional precision, even in thin or articulated structures.

High-Performance TPU is an elastomeric material characterized by exceptional flexibility, abrasion resistance, and the ability to absorb shocks and vibrations. Its matte gray surface with a slightly grainy texture gives a technical and robust appearance while remaining soft to the touch. It is ideal for producing flexible joints, gaskets, cushioning components, and parts subject to cyclic deformation, where elasticity and durability are critical. SLS technology allows the production of isotropic, complex parts without supports, achieving an optimal combination of geometric precision and mechanical performance.

Polyetherimide (PEI) is a high-performance amorphous engineering polymer introduced in 1982. It is commercially known under the brand name Ultem. The stability of the imide bonds gives this material excellent heat resistance, dimensional stability, and high rigidity. The linkage between phenyl rings provides the necessary degree of chain flexibility required for good melt processability and favorable rheological behavior. This material also exhibits strong electrical insulation properties, stable across a wide range of temperatures and frequencies.
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