Courtesy 3Digital Cooks (image 1) and 3dChef (images 2-3)

3D-Printed Food: Curious Cuisine or Fleeting Fad?

Technology's latest target: the human palate.

Michael Petch | Redshift

Food and technology have a long and sometimes strained relationship.

On one hand, harnessing fire led to human evolution. But other technologies, from frivolous “unitasker” gadgets to overprocessed and nutritionally bereft convenience foods, have offered much less in the way of benefits.

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Food and technology have a long and sometimes strained relationship.

Now, a new technology is targeting the palate: 3D-printed food.

If the plethora of new companies, products and conferences focusing on this emerging technology is any indication, 3D food printing appears to be coming of age.

It comes in many forms: combining ingredients in new ways to save time, modifying food for a specific nutritional purpose or even printing cultured cells to create synthetic meat products.

Printing methods include extrusion, binder jetting and powder-bed fusion.

The final product may be finished in an oven, or cooking could be part of a continuous process. Still, it remains to be seen whether this is a passing trend or a more permanent shift.

[Also on Longitudes: 3D Printing: Lessons from the Internet Pioneers]

Pizza-printing for astronauts

One new 3D-printed-food company is BeeHex, Inc., which launched its pizza printer at SXSW 2016.

But BeeHex isn’t simply a wild whim; it’s the result of some big brains thinking differently about food production. Cofounder and CEO Anjan Contractor received a NASA grant in 2013 and built the agency’s first pizza-printing robot for astronauts.

BeeHex's 3D-printed pizza. Courtesy Beehex

BeeHex’s 3D-printed pizza. Courtesy Beehex, Inc.

“Medical professionals want to better measure and influence each astronaut’s diet in space,” says BeeHex CMO and cofounder Jordan French.

“And 3D printing meets that requirement because it allows the precise measurement and placement of each calorie and nutrient combination.”

Beyond standardizing intake requirements for astronauts, BeeHex technology makes strides in other areas that are perfect for commercial applications.

“Done right, 3D food printing saves space and time and reduces waste,” French says.

“For example, a BeeHex printer occupies a few square feet of space and can produce roughly one-and-a-half to two times the same volume of food when compared to manual food assembly in a given amount of time.

3D printing also reduces waste because it can more closely meet exactly what a consumer wants as measured by calories, ingredients or shape.”

A new food experience through 3D food printing

Not surprisingly, much of the current interest in 3D food printing came first from the maker community, where Jason Mosbrucker and former Autodesk Artist in Residence Luis Rodriguez took their early steps with the technology.

A glimpse of Luis Rodriguez's work as an Autodesk Artist in Residence. Courtesy 3Digital Cooks

A glimpse of Luis Rodriguez’s work as an Autodesk Artist in Residence. Courtesy 3Digital Cooks

They now host the 3Digital Cooks podcast.

“3Digital Cooks is a studio dedicated to creating new food experiences through 3D food printing,” Mosbrucker says.

“We focus only on what is available now for the digital cook to use at home, as we want to keep it honest, open and inviting in the hopes to get more people to join us on this 3D-food-printing journey.”

Mosbrucker and Rodriguez also publish recipes on their website and host workshops on how to begin with 3D food printing.

The duo collaborated online for almost a year before finally meeting in person at 2015’s inaugural 3D Food Printing Conference in Venlo, The Netherlands.

The conference showcases the wide spectrum of topics addressable under the 3D-printed-food umbrella.

2016 3D Food Printing Conference

The 2016 conference culminated with a 3D-printed meal prepared by byFlow. The menu included air caviar, mystic prawns and more.

Presentations throughout the daylong event covered tackling obesity, addressing food security and using 3D printing in large-scale industrial food production.

Conference presenter Julian Sing, from food-printing company 3dChef, added a word of caution to the hype surrounding this new medium: “Saying we can now print you something in food is not enough.”

Instead, Sing is keen to find the long-term added value the technology can bring in areas of consistency, efficiency, customization and education regarding eating habits.

“Consistency is what all companies strive for,” he says. “For example, cookie dough is mixed in a very large portion; then, the dough is deposited on a belt that runs through an oven.

The overall dough consistency changes cookie to cookie, and the overall cookie height also has slight differences, which affects baking times and overall appearance.

If you can print the dough, each cookie has a uniform shape and height and then bakes more precisely, browns evenly, and your production waste comes closer to zero.”

3D printing and texture

Courtesy 3Digital Cooks

Courtesy 3Digital Cooks

Baking is an area well-explored by Dr. Kjeld van Bommel, a senior research scientist at independent contract research institution TNO in the Netherlands.

Speaking in Venlo, van Bommel explained that texture is a crucial part of TNO’s research on 3D-printed food.

With 3D printing, different structures, such as honeycombs, are possible.

By creating such structures, 3D-printed food can mimic the eating experience of regular foods.

This research will characterize the next generation of printers.

The goal is to have control over all textural aspects, from baking to storage.

Cellulose in 3D printing

Sonia Holland, a PhD student at the University of Nottingham, is also researching 3D food printing.

Holland’s work focuses on cellulose, which is organic material that results in feelings of satiety (fullness) when eaten but is indigestible so has no caloric impact.

However, cellulose in its natural form is difficult to incorporate into food and therefore a tough sell to consumers.

Holland is investigating the use of ball milling to break down the cellulose into a manageable form that can be 3D printed to create palatable objects.

Applications may include new diet foods that leave consumers feeling full and less prone to snacking.

[Also on Longitudes: The Rise of the RoboBees]

Chocolate’s printing difficulty

As interesting or beneficial to world diets as those innovations may be, more traditional foods often attract the most attention.

Chocolate, in particular, has received intense scrutiny from the 3D-food-printing community — for one, it’s difficult to work with, earning the title “drama queen” from 3Digital Cooks’ Mosbrucker.  

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Done right, 3D food printing saves space and time and reduces waste.

The difficulty is due to tempering — the process by which chocolate gains its shine; texture; and, to an extent, taste.

Successfully and consistently 3D printing correctly tempered chocolate might be the holy grail of major companies, Sing suggests.

Looking to the future, Mosbrucker envisions “wearables talking to your refrigerator, which then talks to your oven, which then talks to your 3D food printer,” resulting in a nutritionally optimized meal ready to eat upon waking up or returning home from work.

Other ideas include 3D printing food for humanitarian assistance in remote areas.

Given the vast possibilities within this field, from disaster relief to hospitality-industry applications, it’s hopeful that 3D printing and food are set for a long, harmonious relationship.goldbrown2

This article originally on Autodesk’s Redshift, a site dedicated to inspiring designers and creators. 

Top image credit: 3D Digital Cooks

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Michael Petch is the author of several books on 3D-printing technology and a regular speaker at international conferences.

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