Ground mussel shells for 3D printing


CATEGORY: New advances

These prototypes demonstrate that 3D printing and reprinting using locally sourced natural and sustainable raw materials is a viable option in a circular economy.


© / Marita Sauerwein


Athough there is plenty of optimism about the use of 3D printing to stimulate the transition to a circular economy, very few applications of 3D printing actually support and facilitate a circular economy. In a circular economy, the design process seeks to preserve the value of products and materials in the economic system. This can be achieved by extending the product lifetime, or through the high-quality reuse and recovery of products and materials.


20 million kilos of raw materials

The Netherlands has an abundant supply of mussel shells, for example. Every year, 55 million kilos of mussels are harvested here, resulting in 20 million kilos of waste. What if you could put that mountain of waste material to good use, and even reuse it?


To investigate the possibility of using these types of new materials in 3D printing, Marita Sauerwein, a designer who soon had her Ph.D. from Delftex University, experimented with materials, designed prototypes and actually produced them.


Dissolve and re-print

One of the key requirements for practical use in a circular economy is that it must be possible to deconstruct and reassemble the materials used without deterioration of quality. In this case, the prototypes can simply be dissolved in water to form a paste, which can then be reused in the 3D printer without any loss of quality. The most important finding of Sauerwein for this was the binding agent. The compounds made with the mussel shells and alginate are fully reversible, making them suitable for reuse in another product design without quality loss. Also, products printed with alginate can be bend after submersion in water, creating new possibilities, like a hair clip, shaped precisely to your head.


© / Marita Sauerwein



Life cycle and design

According to the doctoral candidate, the development of re-printable materials calls for a different approach to design and a different perspective on the life cycle of a product. You have to think about how products and material can be reused without losing quality as soon as you start designing. Sauerwein also illustrates this with the prototypes of a lamp and a vase, with reversible 3d printed joints. ‘They are made out of the same panels, but  the 3D-printed joints allow for a unique design. These findings are interesting for designers, because they give the potential for more freedom in product design in a circular economy.’





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