sábado, julio 12, 2014

impresora 3D que funciona con papel y pegamento


Crean una impresora 3D que funciona con papel Por: Antonio Delgado

Fecha: 11/07/2014 19:16

Este curioso dispositivo prescinde del plástico, resinas y otros materiales utilizados en la impresión 3D para utilizar papel en su lugar.
Su funcionamiento se basa en dos pasos principales: primero se divide el modelo 3D en capas, que una impresora imprimirá en folios de papel siguiendo el procedimiento de la impresión tradicional de inyección de tinta, aplicando colores o líneas en 2D. Posteriormente, la máquina que podríamos considerar más cercana a una impresora 3D al uso, la Mcor IRIS, se encarga de ir superponiendo esas láminas de papel utilizando un pegamento de alta densidad en las zonas del modelo y un pegamento mucho más suave en las zonas "de relleno", mientras que va cortando las piezas para adaptarlas a la forma necesaria.

Una vez finalizado, tendremos un modelo recubierto por el material de relleno en forma de cubos, que al estar formado por pegamento de poca adherencia, podremos extraer manualmente para obtener el modelo que diseñamos con una resistencia y tacto similar al de madera de baja densidad.

Como se puede ver, la resolución conseguida se aleja de la mayoría de impresoras 3D de plástico, generalmente ABS o PLA, consiguiendo un nivel de detalle que permite, por ejemplo, crear mapas topográficos con un alto nivel de detalle a partir de fotos reales del terreno.

Además, al utilizar papel y pegamento como material, esta impresora consigue reducir los costes de impresión significativamente respecto a las impresoras 3D a color convencionales.

Enlace de interés




Layered paper 3D printers: Full colour, durable objects at a fraction of the cost

By Loz Blain July 9, 2014

Irish company Mcor's unique paper-based 3D printers make some very compelling arguments. For starters, instead of expensive plastics, they build objects out of cut-and-glued sheets of standard 80 GSM office paper. That means printed objects come out at between 10-20 percent of the price of other 3D prints, and with none of the toxic fumes or solvent dips that some other processes require.

Secondly, because it's standard paper, you can print onto it in full color before it's cut and assembled, giving you a high quality, high resolution color "skin" all over your final object. Additionally, if the standard hard-glued object texture isn't good enough, you can dip the final print in solid glue, to make it extra durable and strong enough to be drilled and tapped, or in a flexible outer coating that enables moving parts - if you don't mind losing a little of your object's precision shape.

The process is fairly simple. Using a piece of software called SliceIt, a 3D model is cut into paper-thin layers exactly the thickness of an 80 GSM sheet. If your 3D model doesn't include color information, you can add color and detail to the model through a second piece of software called ColorIt.

Next, a regular CMYK inkjet printer prints each slice of the model onto a separate sheet of paper, with a ~5 mm-wide outline of the required color of the bit that will end up showing once it's assembled. The stack of printed slices is then loaded into the Mcor IRIS machine, which uses a process called selective deposition lamination.

Each sheet is laid down, and its slice shape is cut into it. Then a print nozzle lays soft glue all over the non-essential parts of that sheet that will be broken away after manufacture. A second, high density glue is applied to the sections of the paper that will be used to form the final model. Then, the next sheet is drawn over the top of it, and the stack is pressed up against a heat plate that seals the two layers together.

Once all layers have been cut, glued and pressed together, the object comes out of the printer as a chunky sheaf of paper. But the waste material, with its softer glue, is slightly flexible and pre-cut into little cubes, so it pulls away quickly and easily from the much tougher, denser material of the object itself. The process can be seen in this video:

Even without an outer coating, the final objects feel very solid – something like a medium density wood feel – and the print detail can be truly fantastic, miles ahead of what some other 3D printers are able to achieve. Some of the samples we looked at had started to peel apart a little bit – but then, these were road-weary trade samples that had been handled by hundreds of people. In general they felt very solid.

Geoff Hancock, CEO of DGS 3D, the Australian supplier of Mcor machinery, told us that while the paper-based print process was broadly useful in parts prototyping, presentation modelling, architectural modelling, sand casting and a range of other business use cases, one of the most successful areas of the business is in printing out miniaturized cityscapes, complete with topographical data.

Topographical map, 3D printed in full colour by the Mcor IRIS machine (Photo: Loz Blain)
"We can take the topographical map of an area, and then overlay a satellite photo to produce a 3-D model," said Hancock. "No other process can produce something that's both topographically accurate and printed to such fine resolution. Councils are going mad for it, and there's a guy in the US running around making full models of golf courses to put in the lobby. They look fantastic."

Shape layering becomes more visible when the slope is gentle (Photo: Loz Blain)
The Mcor machines are being installed in 3D print outsourcing centers, such as Staples in the US and Officeworks in Australia, in which there will soon be a service where customers can bring in their 3D models to be printed and sent back to them, or have themselves scanned and photographed on site and reproduced as their own miniature 3D figurines.

The materials are all so common and so affordable that a fist-sized object can be printed for as little as US$10-12. Cheap, durable, and full-color, full resolution prints make this a significant technology in 3D printing. Mcor can be expected to do well out of it!


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