The method of fabricating objects via silicone molding has a long tradition. Until now, however, creating molds for casting complex objects required a lot of experience and involved manual work, which made the process expensive and slow. Researchers from the Istituto di Scienza e Tecnologie dell’Informazione (ISTI-CNR) and the Institute of Science and Technology Austria (IST Austria) have now developed a tool that not only automatically finds the best way of designing the molds, but also delivers templates for so-called “metamolds”: Rigid, 3-D-printed molds used to fabricate the optimized silicone molds. Their method, which can lower the cost of this fabricating technique, is presented at this year’s SIGGRAPH conference.
When it comes to fabricating a series of identical objects, the technique of molding plays an important role. One of the favored materials for the mold is silicone, as it is deformable, and therefore forgiving when it comes to extracting complex objects at the end of the fabrication process. Extracting the object from the mold generally requires separating the mold pieces without getting them caught in overhanging parts of the object. A careful cut is required to open the mold. This process, which until now involved manual work from an experienced craftsman, has now been automated. “Until now, silicone molding of complex shapes was a craft that needed years of experience and a skillful hand. You needed to know where to place the cuts ideally, and the work was done manually. Our new tool makes this method accessible for everyone,” says Bernd Bickel.
The user uploads the desired shape. The tool then calculates where the cuts need to be placed for an optimal result. This means that the smallest possible number of mold pieces is used, and that the object can be safely removed from the mold once it is finished. Then the computer automatically creates the 3-D-printable templates of the metamold, the container that is used to fabricate the ideal silicone mold pieces. The printed metamolds are filled with liquid silicone to produce the final silicone mold pieces, which are reusable, and can be used to cast multiple replicas.
The researchers expect that their method will prove useful in jewelry design or art. “When you are not producing millions of copies, this is the method of choice,” says Thomas Alderighi from ISTI-CNR, the first author of the study who has spent two months at IST Austria as an intern in the research group of Bernd Bickel. As noted by Paolo Cignoni, research director at ISTI—CNR, one possible application is the production of a small number of replicas for museums that could be handled by visitors for a deeper experience of the exhibition. The final silicone mold pieces can also be used to create replicas from a variety of materials, including traditional ones like resin, but also unconventional ones like chocolate or ice.
Interactive software tool makes complex mold design simple
Thomas Alderighi et al, Metamolds, ACM Transactions on Graphics (2018). DOI: 10.1145/3197517.3201381