Unique project developing innovative materials for Additive Manufacturing

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Resultado de imagem para bRIGHTLANDS MATERIALS CENTER LOGOBrightlands Materials Center and partners DSM, Xilloc Medical, Eindhoven University of Technology, University of Maastricht and NWO have started a unique four years project to progress new polymeric materials for use in additive manufacturing and 4D printing. These materials are aimed to bring improved and novel properties to products made from them. The innovative materials are based on the recently developed concepts of dynamic and reversible chemistry.

Additive manufacturing is a rapidly growing manufacturing technology that is increasingly moving away from rapid prototyping to industrial manufacturing of small series. This development is accompanied by an increasing demand for better and novel materials to enable qualitatively better, faster and more robust additive manufacturing processes.

Dynamic polymers such as vitrimers are a fascinating new class of materials with highly unusual properties. Most well known are self-healing properties, which enable the materials to repair themselves after damage takes place. Using dynamic materials in Additive Manufacturing is novel and is expected to lead to new applications.

Three research areas

As a start, three areas have been identified for the application of these new polymeric materials:
Selective laser sintering
Selective laser sintering is an additive manufacturing technology in which individual powder particles merge by melting them with a laser. An inefficient merging process leads to poor mechanical properties of the printed part. The novel materials improve the merging process by reversibly reducing their viscosity and thus flowing more easily together and secondly, have better bond formation across particle boundaries. (Watch a video about Selective Laser Sintering)

4D printing technology

The 4D printing is a promising emerging technology that is based on dynamic materials that respond to stimuli to change properties such as shape. The project will combine additive manufacturing techniques such as 3D inkjet printing and stereolithography with responsive liquid crystalline polymer networks. These are able to react to a variety of external stimuli in a reversible manner. New approaches are proposed to explore nature‐like hierarchal structures. (Read more and watch the videos about Stereolithography and Inkjet printing).

Biofabrication

In the field of Biofabrication, Additive manufacturing is used to print 3D tissue. Currently, there are limitations because there is a lack of well‐defined and customizable synthetic systems that allow for precise control over material properties and the bioactivation of the material. The reversible and mechanically instructive materials developed in this project enable the exploration of the ability to influence stem‐cell behavior and elevate biofabrication for tissue engineering.

Collaboration and funding
  • Partners in this project are:

Eindhoven University of Technology (www.tue.nl)

Maastricht University (www.maastrichtuniversity.nl)

DSM (www.dsm.com)

Xilloc Medical (www.xilloc.com)

Brightlands Materials Center (www.brightlandsmaterialscenter.com).

This research received funding from the Netherlands Organisation for Scientific Research (NWO, www.nwo.nl) in the framework of the Fund New Chemical Innovations and from the Ministry of Economic Affairs in the framework of the TKI allowance.

Sources & More information

Related article categories:
Business

Article and featured image:

The article was gently conceded by Brightlands Materials Center.

Featured Image and photo:
Brightlands Materials Center Feb 11, 2016, An impression of the opening of Brightlands Materials Center https://www.youtube.com/watch?v=COsDN2uYvuA visited on Jun 12, 2018;

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