Produktai skirti spausdinklis (321)

3D printing or additive manufacturing (AM) is any of various processes for making a three-dimensional object of almost any shapes. At RPWORLD, additive manufacturing 3D printing is designed for functional prototypes, complex designs, and production components. - Materials selection Selective laser sintering, (SLS), Stereolithography (SLA) and Fused Deposition Modeling (FDM) are the most common additives manufacturing processes that RPWORLD uses to realize a project. - Cost-efficiently You can get the 3D printed parts of any possible shapes as you desire. And more importantly, since it doesn’t need the mold, it could be a cost-effective process for your custom parts. - Complex-geometries The structure of the 3D printed parts is not limited, you can nearly get any shapes as your part design. Industries Applied:Medical Device Industries Applied:Scientific Instrument

3D printing or additive manufacturing (AM) is any of various processes for making a three-dimensional object of almost any shapes. At RPWORLD, additive manufacturing 3D printing is designed for functional prototypes, complex designs, and production components. - Materials selection Selective laser sintering, (SLS), Stereolithography (SLA) and Fused Deposition Modeling (FDM) are the most common additives manufacturing processes that RPWORLD uses to realize a project. - Cost-efficiently You can get the 3D printed parts of any possible shapes as you desire. And more importantly, since it doesn’t need the mold, it could be a cost-effective process for your custom parts. - Complex-geometries The structure of the 3D printed parts is not limited, you can nearly get any shapes as your part design. Industries Applied:Medical Device Industries Applied:Scientific Instrument

3D printing or additive manufacturing (AM) is any of various processes for making a three-dimensional object of almost any shapes. At RPWORLD, additive manufacturing 3D printing is designed for functional prototypes, complex designs, and production components. - Materials selection Selective laser sintering, (SLS), Stereolithography (SLA) and Fused Deposition Modeling (FDM) are the most common additives manufacturing processes that RPWORLD uses to realize a project. - Cost-efficiently You can get the 3D printed parts of any possible shapes as you desire. And more importantly, since it doesn’t need the mold, it could be a cost-effective process for your custom parts. - Complex-geometries The structure of the 3D printed parts is not limited, you can nearly get any shapes as your part design. Industries Applied:Medical Device Industries Applied:Scientific Instrument

3D printing or additive manufacturing (AM) is any of various processes for making a three-dimensional object of almost any shapes. At RPWORLD, additive manufacturing 3D printing is designed for functional prototypes, complex designs, and production components. - Materials selection Selective laser sintering, (SLS), Stereolithography (SLA) and Fused Deposition Modeling (FDM) are the most common additives manufacturing processes that RPWORLD uses to realize a project. - Cost-efficiently You can get the 3D printed parts of any possible shapes as you desire. And more importantly, since it doesn’t need the mold, it could be a cost-effective process for your custom parts. - Complex-geometries The structure of the 3D printed parts is not limited, you can nearly get any shapes as your part design. Industries Applied:Medical Device Industries Applied:Scientific Instrument

Impresoras de etiquetas manuales, compactas y de alta resistencia. Fácil movilidad y limpieza, manejo intuitivo y sencillo mantenimiento. Recomendadas para conexión a plataformas de pesaje o indicadores de peso. Ideales para almacenes logísticos y finales de línea. Impresoras de etiquetas de sobremesa, ideales para etiquetado manual de artículos. La impresora de etiquetas Dibal LP-3000 es ideal para el etiquetado manual de artículos. Conectada a plataformas de pesaje e indicadores de peso, forman un equipo completo para la impresión de etiquetas con información de peso y precio.

3D printing or additive manufacturing (AM) is any of various processes for making a three-dimensional object of almost any shapes. At RPWORLD, additive manufacturing 3D printing is designed for functional prototypes, complex designs, and production components. - Materials selection Selective laser sintering, (SLS), Stereolithography (SLA) and Fused Deposition Modeling (FDM) are the most common additives manufacturing processes that RPWORLD uses to realize a project. - Cost-efficiently You can get the 3D printed parts of any possible shapes as you desire. And more importantly, since it doesn’t need the mold, it could be a cost-effective process for your custom parts. - Complex-geometries The structure of the 3D printed parts is not limited, you can nearly get any shapes as your part design. Industries Applied:Medical Device Industries Applied:Scientific Instrument

3D printing or additive manufacturing (AM) is any of various processes for making a three-dimensional object of almost any shapes. At RPWORLD, additive manufacturing 3D printing is designed for functional prototypes, complex designs, and production components. - Materials selection Selective laser sintering, (SLS), Stereolithography (SLA) and Fused Deposition Modeling (FDM) are the most common additives manufacturing processes that RPWORLD uses to realize a project. - Cost-efficiently You can get the 3D printed parts of any possible shapes as you desire. And more importantly, since it doesn’t need the mold, it could be a cost-effective process for your custom parts. - Complex-geometries The structure of the 3D printed parts is not limited, you can nearly get any shapes as your part design. Industries Applied:Medical Device Industries Applied:Scientific Instrument

The MPERIA Standard has the capability to support all printing technologies for simultaneous print control and is ideal for primary, secondary, and tertiary marking and coding. Upgrades allow for a virtually unlimited number of printing devices and functionality.

The MPERIA Standard Enclosed has the capability to support all printing technologies for simultaneous print control and is ideal for primary, secondary, and tertiary marking and coding. Upgrades allow for a virtually unlimited number of printing devices and functionality.

The MPERIA Standard H.E. has the same capability as the MPERIA Standard, and offers a 15” touchscreen in an IP65 stainless steel enclosure making it suitable for harsh environments.

The MPERIA marking and coding automation platform centralizes control of your marking technology, regardless of equipment technology or vendor.

Optimized for machine builders wanting to integrate a robust, reliable, and cost-effective marking and coding solution in their production lines.

The MPERIA marking and coding automation platform centralizes control of your marking technology, regardless of equipment technology or vendor

Our enclosed module featuring an internal power supply and printhead driver board, enables communication between the DOD printhead technology and the MPERIA controller through an Ethernet connection. V-Links can be stacked and networked through MPERIA®, providing a flexible and scalable system for small or very large applications.

2” manual weigh-price labellers connectable to weighing plaforms. Dibal LP-545 label printer is ideal for manual labelling of products. Connected to a weighing platform works as a full equipment to print labels with weight and price information.

Experience the pinnacle of marking and coding efficiency with the MPERIA Controller. Seamlessly switch messages in seconds, enhance mark quality, and centralize coding control on your production lines regardless of equipment manufacturer. With over 170 years of expertise, we ensure ongoing support, making us your reliable partner today and beyond. Legacy Controller Challenges Companies grappling with outdated, inflexible marking systems face significant challenges in streamlining their product, case, or pallet marking processes. These systems are difficult to use, lacking automation features, and hinder seamless integration into existing production environments. The absence of user-friendly interfaces and manual code changeovers lead to increased errors, bottlenecks, and inefficient operations, resulting in unnecessary labor hours and costly recalls. There is a pressing need for an easier-to-use, automated marking solution that enables efficient integration, improves

The MPERIA 8″ is the most compact controller in the MPERIA product line. This controller manages one printing technology. Upgrades are available that allow for expanding functions including the number of controlled devices.

• Model measurements up to 1.000 x 600 x 500 mm • Same handling as for conventional wax parts • Tool-less and hence more cost-effective process • Single items and small series can be produced within a few days • High degree of accuracy: ±0.4% (min. +/- 100 µm) • Wax infiltration creates closed smooth surface • Suitable for autoclaves, even for thin-walled shells • Can be burnt out in normal kiln with low emission formation • Does not expand during burn-out process, hence no shell cracking (whether gypsum or ceramics) • Residual ash contents <0.02% for polypor binder type C • All alloys can be used with lost-wax casting process

The VX500 is a 3D printer for industrial applications that has been tried and tested many times over in practice. These machines can be found wherever there is a demand for the straightforward production of prototypes and models. Despite their compact dimensions, they captivate with the features of a high-performance printer, such as multi-jet print heads, integrated material handling and job boxes. The machine is very fast, easy to operate and permits cost-effective production of both individual parts and small series alike. Plastic can be used as the particulate material. The machine's build space measures 500 x 400 x 300 mm. The VX500's print head system can achieve a resolution of up to 600 dpi. The thickness of a layer applied in one cycle is 150 µm. In addition, the VX500 concept is resource-friendly: In plastic processes, the unprinted particulate material is recyclable.

• Mold measurements up to 4 x 2 x 1 m • Does away with elaborate and expensive mold set-ups • Short throughput time (a few days) • Sand molds correspond 1:1 with CAD model • Structures can be designed in accordance with requirements, without having to watch for draft angles or undercuts • Special sands prevent casting problems • Surface quality can be adjusted through use of different sands • Coarse-grained sands for high gas permeability • Considerable flexibility with changes in geometry, without additional expenses • No storage or maintenance of patterns • Cost savings particularly for complex molds and batch sizes of 1 to several hundred pieces

The VX4000 is the world's biggest industrial 3D printing system for sand molds. It has a cohesive build space measuring 4,000 x 2,000 x 1,000 mm (LxWxH). This machine can be used to economically produce very large individual molds, a great many small series components or a combination of the two. With its uniquely large volume, the VX4000 maximizes productivity and flexibility. The unique and patented layering process was specially adapted for this printer. Instead of lowering the building platform during the printing process, the print head and coater are raised with each layer. As a result, the machine can bear the enormous weight of the building platform, which can be quickly exchanged via a rail—making it possible to print nearly continuously. Sand can be used as the particulate material. The VX4000's print head system can achieve a resolution of up to 300 dpi. A layer applied in one cycle is 300 µm thick.

Mit Hilfe des 3D-Drucks lässt sich der Herstellungsprozess von Formen und Kernen drastisch verkürzen. Detailbeschreibung: • Formen am Stück bis zu 4 x 2 x 1 m groß • Aufwendige und teure Formeinrichtung entfällt • Kurze Durchlaufzeiten (wenige Tage) • Sandformen entsprechen 1:1 dem CAD-Modell • Konstruktionen können anforderungsgerecht gestaltet werden, ohne auf Entformungsschrägen oder Hinterschnitte zu achten • Spezialsande beugen Gussproblemen vor • Oberflächenqualität durch unterschiedliche Sandsorten beeinflussbar • Grobkörnige Sande für hohe Gasdurchlässigkeit • Hohe Flexibilität bei Geometrieänderungen ohne finanziellen Mehraufwand • keine Lagerung und Wartung von Modellen • Kosteneinsparung vor allem bei komplexen Formen von Losgröße 1 bis zu mehreren Hundert Teilen

Ganz gleich ob Prototyp, Einzelstück oder Kleinserie – die 3D-Drucktechnologie ermöglicht die einfache und kostengünstige Herstellung von hochkomplexen Design- und Feingussmodelle in kürzester Zeit. Detailbeschreibung: • Modelle bis zu 1.000 x 600 x 500 mm groß • Handhabung wie bei üblichen Wachslingen • Werkzeugloses und deshalb kostengünstigeres Verfahren • Einzelstücke oder Kleinserien innerhalb weniger Arbeitstage möglich • Für Autoklaven geeignet, selbst für dünnwandige Schalen • Ausbrennen in normalem Brennofen bei niedriger Emissionsentwicklung möglich • Keine Ausdehnung während Ausbrennprozesses, deshalb kein Schalenbruch (egal ob Gips oder Keramik) • Restaschegehalt <0.02 % for Polypor Binder Typ C • Im Feinguss sind jegliche Legierungen geeignet

Our international bestseller: the VX1000 is a universal 3D printer for industrial applications. The machine is fast, easy to operate and enables you to cost-effectively produce medium-sized molds, cores and models for making prototypes. The VX1000 is also suitable for producing small series. Plastic and sand can be used as the particulate material. The piezo print head system of the VX1000 achieves a resolution of up to 600 dpi. The machine's build space measures 1,000 x 600 x 500 mm. The thickness of a layer applied in one cycle is 150 µm for plastic and 300 µm for sand. In addition, the VX1000 concept is environmentally friendly: In plastic processes, the unprinted particulate material is recyclable.

• Model measurements up to 1.000 x 600 x 500 mm • Same handling as for conventional wax parts • Tool-less and hence more cost-effective process • Single items and small series can be produced within a few days • High degree of accuracy: ±0.4% (min. +/- 100 µm) • Wax infiltration creates closed smooth surface • Suitable for autoclaves, even for thin-walled shells • Can be burnt out in normal kiln with low emission formation • Does not expand during burn-out process, hence no shell cracking (whether gypsum or ceramics) • Residual ash contents <0.02% for polypor binder type C • All alloys can be used with lost-wax casting process

• Model measurements up to 1.000 x 600 x 500 mm • Same handling as for conventional wax parts • Tool-less and hence more cost-effective process • Single items and small series can be produced within a few days • High degree of accuracy: ±0.4% (min. +/- 100 µm) • Wax infiltration creates closed smooth surface • Suitable for autoclaves, even for thin-walled shells • Can be burnt out in normal kiln with low emission formation • Does not expand during burn-out process, hence no shell cracking (whether gypsum or ceramics) • Residual ash contents <0.02% for polypor binder type C • All alloys can be used with lost-wax casting process

Ganz gleich ob Prototyp, Einzelstück oder Kleinserie – die 3D-Drucktechnologie ermöglicht die einfache und kostengünstige Herstellung von hochkomplexen Design- und Feingussmodelle in kürzester Zeit. • Modelle bis zu 1.000 x 600 x 500 mm groß • Handhabung wie bei üblichen Wachslingen • Werkzeugloses und deshalb kostengünstigeres Verfahren • Einzelstücke oder Kleinserien innerhalb weniger Arbeitstage möglich • Für Autoklaven geeignet, selbst für dünnwandige Schalen • Ausbrennen in normalem Brennofen bei niedriger Emissionsentwicklung möglich • Keine Ausdehnung während Ausbrennprozesses, deshalb kein Schalenbruch (egal ob Gips oder Keramik) • Restaschegehalt <0.02 % for Polypor Binder Typ C • Im Feinguss sind jegliche Legierungen geeignet

Mit Hilfe des 3D-Drucks lässt sich der Herstellungsprozess von Formen und Kernen drastisch verkürzen. Detailbeschreibung: • Formen am Stück bis zu 4 x 2 x 1 m groß • Aufwendige und teure Formeinrichtung entfällt • Kurze Durchlaufzeiten (wenige Tage) • Sandformen entsprechen 1:1 dem CAD-Modell • Konstruktionen können anforderungsgerecht gestaltet werden, ohne auf Entformungsschrägen oder Hinterschnitte zu achten • Spezialsande beugen Gussproblemen vor • Oberflächenqualität durch unterschiedliche Sandsorten beeinflussbar • Grobkörnige Sande für hohe Gasdurchlässigkeit • Hohe Flexibilität bei Geometrieänderungen ohne finanziellen Mehraufwand • keine Lagerung und Wartung von Modellen • Kosteneinsparung vor allem bei komplexen Formen von Losgröße 1 bis zu mehreren Hundert Teilen

Mit Hilfe des 3D-Drucks lässt sich der Herstellungsprozess von Formen und Kernen drastisch verkürzen. Detailbeschreibung: • Formen am Stück bis zu 4 x 2 x 1 m groß • Aufwendige und teure Formeinrichtung entfällt • Kurze Durchlaufzeiten (wenige Tage) • Sandformen entsprechen 1:1 dem CAD-Modell • Konstruktionen können anforderungsgerecht gestaltet werden, ohne auf Entformungsschrägen oder Hinterschnitte zu achten • Spezialsande beugen Gussproblemen vor • Oberflächenqualität durch unterschiedliche Sandsorten beeinflussbar • Grobkörnige Sande für hohe Gasdurchlässigkeit • Hohe Flexibilität bei Geometrieänderungen ohne finanziellen Mehraufwand • keine Lagerung und Wartung von Modellen • Kosteneinsparung vor allem bei komplexen Formen von Losgröße 1 bis zu mehreren Hundert Teilen

Ganz gleich ob Prototyp, Einzelstück oder Kleinserie – die 3D-Drucktechnologie ermöglicht die einfache und kostengünstige Herstellung von hochkomplexen Design- und Feingussmodelle in kürzester Zeit. Detailbeschreibung: • Modelle bis zu 1.000 x 600 x 500 mm groß • Handhabung wie bei üblichen Wachslingen • Werkzeugloses und deshalb kostengünstigeres Verfahren • Einzelstücke oder Kleinserien innerhalb weniger Arbeitstage möglich • Für Autoklaven geeignet, selbst für dünnwandige Schalen • Ausbrennen in normalem Brennofen bei niedriger Emissionsentwicklung möglich • Keine Ausdehnung während Ausbrennprozesses, deshalb kein Schalenbruch (egal ob Gips oder Keramik) • Restaschegehalt <0.02 % for Polypor Binder Typ C • Im Feinguss sind jegliche Legierungen geeignet