Overcoming the challenges of 3D printing with soft thermoplastic elastomers

Kraiburg TPE performed extensive tests to examine the suitability of its thermoplastic elastomers (TPEs) for use in additive manufacturing (AM).

The tests showed that most of the company’s TPEs can be used on fused deposition modeling (FDM) on devices from Pollen AM.

“Due to physical limitations, most classic 3D filament printers are not suitable for processing soft TPEs. In addition, it’s only possible to draw fairly limited conclusions from prototypes made of special 3D printing materials in relation to the performance of standard injection molding or extrusion compounds,” says Dr. Thomas Wagner from Product Management EMEA at Kraiburg TPE. “The challenge we faced was to precisely analyze the prerequisites for fused deposition modeling of soft TPEs. In order to find a suitable solution, we had to learn to separate the technical limitations of the printers from those of the materials.”

The pellet additive manufacturing (PAM) system from Pollen AM, a French 3D printer manufacturer was a key technology. The current series of PAM granule printers produce highly detailed surfaces even with very soft TPEs and are able to process up to four materials at the same time. In this way, typical hard–soft multicomponent composites made of TPEs in combination with plastics such as polypropylene (PP), acrylonitrile-butadiene-styrene (ABS) or polyamide (PA) are also possible.

“Our PAM printers ensure the shortest possible residence times to avoid affecting the specific advantages of soft elastomers,” explains Didier Fonta, Head of Operations at Pollen AM. “This also ensures good peel strength, particularly for multicomponent applications with thermoplastic elastomers in the low Shore hardness range.”

Tests performed jointly by Kraiburg TPE and Pollen AM resulted in convincing prints featuring mechanical properties up to 50% of the values shown by comparable injection moldings, depending on the process parameters. This means that the provided TPE compounds are carefully chosen and processed, so the technology is suitable for producing both demonstration samples and also functional prototypes and is thus able to reduce the costs of developing new applications.
Since almost all thermoplastic elastomers that Kraiburg TPE has in its portfolio are potential materials for direct processing on PAM granule printers, no special compounds are needed. Additionally, all features of the materials, especially their adhesion possibilities on various thermoplastics, are maintained in 3D printing with PAM granule printers. Residues that may arise during production can be recycled in local waste streams.

Kraiburg TPE
www.kraiburg-tpe.com/en