The technique, developed at the Technical University of Vienna, allows magnets to be produced in complex forms and precisely customised magnetic fields using combinations of magnetics materials for power supplies or magnetic sensors.
"The strength of a magnetic field is not the only factor," says Dieter Süss, dead of the Christian-Doppler Advanced Magnetic Sensing and Materials laboratory at TU Wien. "We often require special magnetic fields, with field lines arranged in a very specific way - such as a magnetic field that is relatively constant in one direction, but which varies in strength in another direction."
In order to achieve such requirements, magnets must be produced with a sophisticated geometric form. "A magnet can be designed on a computer, adjusting its shape until all requirements for its magnetic field are met," said Christian Huber, a doctoral student in Dieter Süss' team.
Rather than injection moulding, the new technqiue uses magnetic particles in a polymer matrix. The magnet 3D printer uses specially produced filaments of magnetic micro granulate, which is held together by a polymer binding material. The printer heats the material and applies it point by point in the desired locations using a nozzle. The result is a three-dimensional object composed of roughly 90% magnetic material and 10% plastic.
The end product is not yet magnetic as the granulate is deployed in an unmagnetised state. At the very end of the process, the finished article is exposed to a strong external magnetic field, converting it into a permanent magnet.