Impresora con sistema de doble extrusión IDEX. Admite gran cantidad de materiales y permite realizar los objetos más complejos gracias al uso de soportes solubles.

Los composites son materiales con una base polimérica infundida con otras partículas o fibras en diferentes proporciones. Desde partículas de madera hasta metal para lograr un acabado estético hasta fibras de carbono para combinar ligereza y rendimiento mecánico. Los materiales composites para impresoras FFF dan rienda suelta a tu creatividad. Aplicaciones Plástico con partículas añadidas de madera (woodfill y corkfill): Figuras Modelos estéticos Maquetas de arquitectura Plástico con partículas añadidas de metal (bronzefill, copperfill y steelfill): Figuras y bustos Modelos estéticos Componentes con una apariencia metálica Plástico con partículas añadidas de fibra de carbono (XT-CF20): Componentes mecánicos Piezas finales

TPU (Thermoplastic Polyurethane) is a versatile rubber-like flexible material. With Shore-A hardness of 95, TPU is a resistant material for several industrial applications, both mechanical or chemical. Moreover, it’s been especially designed to improve the 3D printing experience.

Es un material que tiene la capacidad de ser estirado a alargamientos moderados y, tras la eliminación del esfuerzo, volver a su forma original. Tiene el potencial de ser reciclable ya que pueden ser moldeado y reutilizado como plástico.

ABS 3D printing filament is a universal solution for economical prototyping and manufacturing. Its low-cost and versatility lets you efficiently test various iterations of your designs without spending too much. The 3D printing material also withstands high temperatures and it’s tough enough for basic functional testing. This filament will also prove useful for economical short-series production of casings, accessories, and educational props. Z-ABS is available in a wide range of colors. The mat surface of Z-ABS is easy to post-process. The material can be treated chemically or mechanically. You can use acetone to merge bigger parts 3D printed separately. The cost-effectiveness of Z-ABS goes even further. You can reuse rafts and peeled off support structures to prepare ABS juice. Simply mix them with acetone and apply onto the build platform to increase adhesion of the first 3D printed layer.

ABS especialmente aditivado para poder reducir el ABS warping y el cracking. Excelente estabilidad dimensional y regularidad en la impresión.

ABS especialmente aditivado para poder reducir el ABS warping y el cracking. Excelente estabilidad dimensional y regularidad en la impresión.

ABS especialmente aditivado para poder reducir el ABS warping y el cracking. Excelente estabilidad dimensional y regularidad en la impresión.

ABS especialmente aditivado para poder reducir el ABS warping y el cracking. Excelente estabilidad dimensional y regularidad en la impresión.

ABS especialmente aditivado para poder reducir el ABS warping y el cracking. Excelente estabilidad dimensional y regularidad en la impresión.

ABS especialmente aditivado para poder reducir el ABS warping y el cracking. Excelente estabilidad dimensional y regularidad en la impresión.

ABS especialmente aditivado para poder reducir el ABS warping y el cracking. Excelente estabilidad dimensional y regularidad en la impresión.

ABS especialmente aditivado para poder reducir el ABS warping y el cracking. Excelente estabilidad dimensional y regularidad en la impresión.

Ácido Poliláctico o Poliláctido. Plástico biodegradable debido a su origen natural (maíz, patata o caña de azúcar). La textura final no es tan suave como la del ABS, ni es tan resistente. Sin embargo, las piezas impresas se comportan mejor con los ángulos, resultan más brillantes y no necesita cama caliente.

Ácido Poliláctico o Poliláctido. Plástico biodegradable debido a su origen natural (maíz, patata o caña de azúcar). La textura final no es tan suave como la del ABS, ni es tan resistente. Sin embargo, las piezas impresas se comportan mejor con los ángulos, resultan más brillantes y no necesita cama caliente.

Ácido Poliláctico o Poliláctido. Plástico biodegradable debido a su origen natural (maíz, patata o caña de azúcar). La textura final no es tan suave como la del ABS, ni es tan resistente. Sin embargo, las piezas impresas se comportan mejor con los ángulos, resultan más brillantes y no necesita cama caliente.

Ácido Poliláctico o Poliláctido. Plástico biodegradable debido a su origen natural (maíz, patata o caña de azúcar). La textura final no es tan suave como la del ABS, ni es tan resistente. Sin embargo, las piezas impresas se comportan mejor con los ángulos, resultan más brillantes y no necesita cama caliente.

Ácido Poliláctico o Poliláctido. Plástico biodegradable debido a su origen natural (maíz, patata o caña de azúcar). La textura final no es tan suave como la del ABS, ni es tan resistente. Sin embargo, las piezas impresas se comportan mejor con los ángulos, resultan más brillantes y no necesita cama caliente.

Copolyester con un 91% de transparencia en su estado natural, de gran parecido al vidrio y con una gran resistencia química también. Es muy fácil de imprimir, ya que tiene muy baja contracción y puede imprimirse sin cama caliente. Physical Properties Typical Value Test Method Material Density 1,27 g/cm3 ASTM D792 Copolyester with 91% transparency in its natural state, it is very glass like, with high chemical resistance. Accepted for use with food products (FDA). It is very easy to print, as it has very low shrinkage and requires no warm bed.

Copolyester con un 91% de transparencia en su estado natural, de gran parecido al vidrio y con una gran resistencia química también. Es muy fácil de imprimir, ya que tiene muy baja contracción y puede imprimirse sin cama caliente. Physical Properties Typical Value Test Method Material Density 1,27 g/cm3 ASTM D792 Copolyester with 91% transparency in its natural state, it is very glass like, with high chemical resistance. Accepted for use with food products (FDA). It is very easy to print, as it has very low shrinkage and requires no warm bed.

Filamento de polipropileno (PP) de alta calidad para extrusión de materiales Uno de los plásticos de uso más común en la industria Buenas propiedades mecánicas de rigidez y fuerza de tensión Buen acabado de superficie Resistente a ácidos, álcalis y solventes orgánicos Muy liviano Se usa en pellets de envases de alimentos Buena transparencia Propiedad de articulación Principales aplicaciones: Productos técnicos, automotrices, ingeniería mecánica, prototipos, juguetes

El filamento NYLSTRONG consiste en un Nylon (PA6) reforzado con cargas, lo que le dota de una resistencia mecánica, térmica, a la abrasión y de gran rigidez, ideal para una gran variedad de aplicaciones industriales. Imprimir piezas dirigidas al rector industrial que requieran de grandes propiedades mecánicas a tracción e impacto. Dotar a tus impresiones de una gran rigidez. Imprimir piezas que requieran de gran resistencia térmica para trabajar a altas temperaturas. Nylon (PA6) reforzado con cargas, lo que le adquiere gran resistencia al impacto y un balance único entre resistencia y rigidez. Material ideal para diversas prestaciones industriales debido a sus elevadas propiedades mecánicas y resistencia térmica

Z-GLASS is a material with unparalleled properties that will allow you to successfully replace brittle glass elements in your functional prototypes and show what is within them. Its low shrinkage level makes it possible to 3D print defect-free models which will be durable and scratchproof, including automotive and electronics objects. With Z-GLASS, you can create light-transmitting objects that will remain unaffected by heavy exposure to light (high UV resistance) or chemicals. All these advantages make this material ideal not only for industrial sector but also for creating interior design elements.

Z-HIPS is a versatile thermoplastic perfect for 3D printing prototypes which can be used in thorough tests before starting the production processes. It exhibits a high level of hardness, allowing you to complete durable prints without compromises on their quality. With Z-HIPS, your boldest models can acquire a unique, smooth, semimat surface and resemble elements manufactured with mass production plastics, therefore, imitate complete consumer products or end-use parts. Z-HIPS is also fully suited for creating prototypes of mechanical parts or casing elements for performance tests.

Z-ABS 3D printing filament is a universal solution for economical prototyping and manufacturing. Its low-cost and versatility lets you efficiently test various iterations of your designs without spending too much. The 3D printing material also withstands high temperatures and it’s tough enough for basic functional testing. This filament will also prove useful for economical short-series production of casings, accessories, and educational props. Z-ABS is available in a wide range of colors. The mat surface of Z-ABS is easy to post-process. The material can be treated chemically or mechanically. You can use acetone to merge bigger parts 3D printed separately. The cost-effectiveness of Z-ABS goes even further. You can reuse rafts and peeled off support structures to prepare ABS juice. Simply mix them with acetone and apply onto the build platform to increase adhesion of the first 3D printed layer.

Z-ABS 3D printing filament is a universal solution for economical prototyping and manufacturing. Its low-cost and versatility lets you efficiently test various iterations of your designs without spending too much. The 3D printing material also withstands high temperatures and it’s tough enough for basic functional testing. This filament will also prove useful for economical short-series production of casings, accessories, and educational props. Z-ABS is available in a wide range of colors. The mat surface of Z-ABS is easy to post-process. The material can be treated chemically or mechanically. You can use acetone to merge bigger parts 3D printed separately. The cost-effectiveness of Z-ABS goes even further. You can reuse rafts and peeled off support structures to prepare ABS juice. Simply mix them with acetone and apply onto the build platform to increase adhesion of the first 3D printed layer.

Z-ABS 3D printing filament is a universal solution for economical prototyping and manufacturing. Its low-cost and versatility lets you efficiently test various iterations of your designs without spending too much. The 3D printing material also withstands high temperatures and it’s tough enough for basic functional testing. This filament will also prove useful for economical short-series production of casings, accessories, and educational props. Z-ABS is available in a wide range of colors. The mat surface of Z-ABS is easy to post-process. The material can be treated chemically or mechanically. You can use acetone to merge bigger parts 3D printed separately. The cost-effectiveness of Z-ABS goes even further. You can reuse rafts and peeled off support structures to prepare ABS juice. Simply mix them with acetone and apply onto the build platform to increase adhesion of the first 3D printed layer.

Z-ABS 3D printing filament is a universal solution for economical prototyping and manufacturing. Its low-cost and versatility lets you efficiently test various iterations of your designs without spending too much. The 3D printing material also withstands high temperatures and it’s tough enough for basic functional testing. This filament will also prove useful for economical short-series production of casings, accessories, and educational props. Z-ABS is available in a wide range of colors. The mat surface of Z-ABS is easy to post-process. The material can be treated chemically or mechanically. You can use acetone to merge bigger parts 3D printed separately. The cost-effectiveness of Z-ABS goes even further. You can reuse rafts and peeled off support structures to prepare ABS juice. Simply mix them with acetone and apply onto the build platform to increase adhesion of the first 3D printed layer.

Z-ABS 3D printing filament is a universal solution for economical prototyping and manufacturing. Its low-cost and versatility lets you efficiently test various iterations of your designs without spending too much. The 3D printing material also withstands high temperatures and it’s tough enough for basic functional testing. This filament will also prove useful for economical short-series production of casings, accessories, and educational props. Z-ABS is available in a wide range of colors. The mat surface of Z-ABS is easy to post-process. The material can be treated chemically or mechanically. You can use acetone to merge bigger parts 3D printed separately. The cost-effectiveness of Z-ABS goes even further. You can reuse rafts and peeled off support structures to prepare ABS juice. Simply mix them with acetone and apply onto the build platform to increase adhesion of the first 3D printed layer.

Z-ULTRAT 3D printer filament is an ABS plastic blend unique to Zortrax Ecosystem. Designed for durability and excellent surface quality, the material works great whenever high-quality is of the essence. Use it for functional prototypes, end-use parts or to 3D print consumer products. No matter the purpose, models 3D printed with Z-ULTRAT will last longer than those made of standard ABS. This 3D printing material is resistant to high temperatures and impacts. Its exceptional hardness allows you to test models in real life conditions. Z-ULTRAT comes in various colors divided into four palettes: basics, neutrals, neons and pastels. Based on ABS, the material can be easily post-processed with acetone and mechanical treatment. This thermoplastic allows you to reliably achieve properties found in items manufactured with injection molding technology. Z-ULTRAT 3D printing material is perfect for cost-effective low-series production with Z-ULTRAT.

Z-ULTRAT 3D printer filament is an ABS plastic blend unique to Zortrax Ecosystem. Designed for durability and excellent surface quality, the material works great whenever high-quality is of the essence. Use it for functional prototypes, end-use parts or to 3D print consumer products. No matter the purpose, models 3D printed with Z-ULTRAT will last longer than those made of standard ABS. This 3D printing material is resistant to high temperatures and impacts. Its exceptional hardness allows you to test models in real life conditions. Z-ULTRAT comes in various colors divided into four palettes: basics, neutrals, neons and pastels. Based on ABS, the material can be easily post-processed with acetone and mechanical treatment. This thermoplastic allows you to reliably achieve properties found in items manufactured with injection molding technology. Z-ULTRAT 3D printing material is perfect for cost-effective low-series production with Z-ULTRAT.

Z-ULTRAT 3D printer filament is an ABS plastic blend unique to Zortrax Ecosystem. Designed for durability and excellent surface quality, the material works great whenever high-quality is of the essence. Use it for functional prototypes, end-use parts or to 3D print consumer products. No matter the purpose, models 3D printed with Z-ULTRAT will last longer than those made of standard ABS. This 3D printing material is resistant to high temperatures and impacts. Its exceptional hardness allows you to test models in real life conditions. Z-ULTRAT comes in various colors divided into four palettes: basics, neutrals, neons and pastels. Based on ABS, the material can be easily post-processed with acetone and mechanical treatment. This thermoplastic allows you to reliably achieve properties found in items manufactured with injection molding technology. Z-ULTRAT 3D printing material is perfect for cost-effective low-series production with Z-ULTRAT.

Z-ULTRAT 3D printer filament is an ABS plastic blend unique to Zortrax Ecosystem. Designed for durability and excellent surface quality, the material works great whenever high-quality is of the essence. Use it for functional prototypes, end-use parts or to 3D print consumer products. No matter the purpose, models 3D printed with Z-ULTRAT will last longer than those made of standard ABS. This 3D printing material is resistant to high temperatures and impacts. Its exceptional hardness allows you to test models in real life conditions. Z-ULTRAT comes in various colors divided into four palettes: basics, neutrals, neons and pastels. Based on ABS, the material can be easily post-processed with acetone and mechanical treatment. This thermoplastic allows you to reliably achieve properties found in items manufactured with injection molding technology. Z-ULTRAT 3D printing material is perfect for cost-effective low-series production with Z-ULTRAT.

Valido para piezas en ABS y Z-Ultrat. Da un acabado liso eliminando las marca de las capas.