We present FlexMolds, a novel computational approach to automatically design flexible, reusable molds that, once 3D printed, allow us to physically fabricate, by means of liquid casting, multiple copies of complex shapes with rich surface details and complex topology. The approach to design such flexible molds is based on a greedy bottom-up search of possible cuts over an object, evaluating for each possible cut the feasibility of the resulting mold. We use a dynamic simulation approach to evaluate candidate molds, providing a heuristic to generate forces that are able to open, detach, and remove a complex mold from the object it surrounds. We have tested the approach with a number of objects with nontrivial shapes and topologies
"4D printing" refers to a process or product that can transform from a one-dimensional strand to a t...
We present a computational approach for designing CurveUps, curvy shells that form from an initially...
Bending-active structures are able to efficiently produce complex curved shapes starting from flat p...
We present FlexMolds, a novel computational approach to automatically design flexible, reusable mold...
We propose FlexMaps, a novel framework for fabricating smooth shapes out of flat, flexible panels wi...
We propose FlexMaps, a novel framework for fabricating smooth shapes out of flat, flexible panels wi...
The last two decades have seen a rapid and wide growth of digital fabrication machinery and technolo...
We propose a new method for fabricating digital objects through reusable silicone molds. Molds are g...
We propose a new method for fabricating digital objects through reusable silicone molds. Molds are g...
From synthetic polymers to edible materials, a wide range of morphing materials can enable 2D-to-3D ...
The paper presents an ongoing research about the design and a possible use of a responsive flexible ...
When we talk about computational fabrication, we refer to a production process involving specialized...
We present StackMold, a DIY molding technique to prototype multi-material and multi-colored objects ...
We present a computational method for interactive 3D design and rationalization of surfaces via auxe...
We present a computational method for interactive 3D design and rationalization of surfaces via auxe...
"4D printing" refers to a process or product that can transform from a one-dimensional strand to a t...
We present a computational approach for designing CurveUps, curvy shells that form from an initially...
Bending-active structures are able to efficiently produce complex curved shapes starting from flat p...
We present FlexMolds, a novel computational approach to automatically design flexible, reusable mold...
We propose FlexMaps, a novel framework for fabricating smooth shapes out of flat, flexible panels wi...
We propose FlexMaps, a novel framework for fabricating smooth shapes out of flat, flexible panels wi...
The last two decades have seen a rapid and wide growth of digital fabrication machinery and technolo...
We propose a new method for fabricating digital objects through reusable silicone molds. Molds are g...
We propose a new method for fabricating digital objects through reusable silicone molds. Molds are g...
From synthetic polymers to edible materials, a wide range of morphing materials can enable 2D-to-3D ...
The paper presents an ongoing research about the design and a possible use of a responsive flexible ...
When we talk about computational fabrication, we refer to a production process involving specialized...
We present StackMold, a DIY molding technique to prototype multi-material and multi-colored objects ...
We present a computational method for interactive 3D design and rationalization of surfaces via auxe...
We present a computational method for interactive 3D design and rationalization of surfaces via auxe...
"4D printing" refers to a process or product that can transform from a one-dimensional strand to a t...
We present a computational approach for designing CurveUps, curvy shells that form from an initially...
Bending-active structures are able to efficiently produce complex curved shapes starting from flat p...