3D Printing in Architecture

Teams of architects in London and Amsterdam are competing to produce the first habitable printed structure, using technology that could transform the way buildings are made.

  • Future Of 3D Printer In Construction Industry

Since its advent, 3D printing has been on a steady path forward. And the further along it moves, the more people have been wondering how it will affect and benefit all industries. In 2015, China managed to 3D print homes and other large-scale structures, making everyone pay attention to the possibilities for 3D printing in construction in particular.

3D printers allow an architect to be totally flexible in the shape of his designs. 3D printing can build curvilinear structures (rather than rectilinear forms). Using a concrete and composite mixture, 3D printers can build these curvilinear structures, which offer the strongest structural design, especially compared to the limits of rectangular forms.

Future of Construction

  • Benefits of 3D Printing over existing technologies

As with any technology adoption, cost and convenience is a key factor and that’s where 3D printing scores above existing technologies. 3D printing can be used to produce a wide range of architectural models with high complexity which would have been impossible to visualize otherwise.

  1. Cost
    3D printing enables architects and designers to create low-cost 3D architectural models with a high level of precision.

2. Time
3D printing saves time in the early design and creation phases by reducing
the lead-time for architectural model production and allowing quick tests
of concepts and iterations. Since you save time on building the model by
hand, you can spend more time on developing different concepts of the

3. Ease of Use
The ease with which sketches can be transformed into models makes 3d
Printing technology adoption extremely smooth.

4. Scale of Use
The best part is that no project is too large or too small; from developments,
cityscapes, and commercial buildings, to homes interiors, and swimming

5. Versatility


3D Printing in Fashion


Additive manufacturing is mainly known for its applications in rigid objects, but is slowly finding its way into the movable world of textiles. At this moment most initiatives remain on the level of one piece elements for artistic expression. Examples of these are the creations of the Dutch couturier Iris van Herpen and Makerbot.

Materials for clothing products require flexibility, such as fall and drape of textiles, to be comfortable to wear. Technologies for additive manufacturing can offer these kind of characteristics to newly developed clothing materials or even complete garments. The first steps of this production technology for textiles have already been explored by Olga Sjöroos and Jussi Mikkonen of Aalto University in Helsinki, who created a 3D printed structure as a relatively equal substitute to a fabric and textiles by Freedom of Creation.).

Currently (as evidenced by the fact that these dresses are in a museum display), 3D-printed clothes are pretty much the exclusive purview of haute couture. But as the technology is adopted by more apparel makers, it has the potential to trickle down to the masses. When that happens, “it can be as revolutionary as the sewing machine,” said Andrew Bolton, Manus x Machina’s curator. “It means you can 3D print your dress to your exact measurements at home.”

An ensemble by Karl Lagerfeld cor Chanel's Autumn/ Winter 2015–2016 haute couture line.

An ensemble by Karl Lagerfeld for Chanel’s Autumn/Winter 2015–16 haute couture line.

Photographer: Nicholas Alan Cope/Courtesy of the Metropolitan Museum of Art

Couture clothes, in the traditional fashion industry definition, are “items made for you, that fit your body,” Bolton explained. Usually that means the garments are expensive, rare, and difficult to obtain. But with 3D printing, this extravagance will move into any home that has a printer. “Because it has the ability to mould exactly to your measurements, it’s environmentally friendly, too” Bolton said. “There’s no waste, whereas there’s always waste with textiles.”

“One area where I haven’t seen much growth is the combination of 3D printing with fabric,” said Bolton. “Like a structured, 3D-printed bodice, with a fabric skirt.” Debo compared it to the gradual introduction of electric cars. “Everyone is talking about a new industrial revolution, but I think of it as a normal evolution,” he said. “A mass production component will become a mass customized component.”

A “Flying Saucer” Dress by  Issey Miyake from Spring/ Summer 1994, which is included in the Manus x Machina exhibition

A “Flying Saucer” Dress by Issey Miyake from Spring/Summer 1994, which is included in the Manus x Machina exhibition

Photographer: Nicholas Alan Cope/Courtesy of the Metropolitan Museum of Art

And what will it take for home-printed dresses to become a reality? “To my knowledge, there are a couple of companies working on this,” Debo said, pointing out that it would entail the printing of a natural fiber. “We’re still pretty far off.” Bolton echoes that sentiment, calling home-printing “a dream.” Yet both point to Iris Van Herpen’s more commercial designs as the first step. “It’s a slow process of adoption,” Debo said. “But of course, in the last two or three years, it’s changed quite rapidly.”

shoe by 3D printing

In Textile Industry

3D printing in the textile industry lets you unleash your imagination in order to quickly create new structures through innovative new materials.

Thanks to the wide choice of materials that we offer such as plastic or our new flexible plastic material (TPU), it is possible for you to 3D print your most ambitious projects in less time and associate them with clothing of any type to reinterpret the most classic styles.

Marrying different types of fabrics and 3D printing allows you to explore new facets in fashion and therefore to propose a new vision in the textile sector. In an avant-garde sector such as fashion, mixing the latest trends with the latest 3D printing technology will allow you to differentiate yourself from competitors.

The flexible plastic


Thanks to our materials engineers we managed to 3D print a new material, the flexible plastic, among the most flexible in the world. This material is thermoplastic polyurethane technology designed specifically for Selective Laser Sintering (SLS) with a level of Shore 65A which makes it highly flexible.

With this new type of material you are going to reinvent the textile industry by inventing fully 3D printed clothes. The flexibility of flexible plastic allows you how to create clothes with the most unusual shapes while keeping the flexibility of the fabric.

We have worked with many partners, especially with a young designer who wanted to show, through her collection, 3D printing clothes. It therefore replaced the tissue by 3D printing as a new material in order to before blending of traditional knowledge and technology.