We present a multimaterial voxel-printing method that enables the physical visualization of data sets commonly associated with scientific imaging. Leveraging voxel-based control of multimaterial three-dimensional (3D) printing, our method enables additive manufacturing of discontinuous data types such as point cloud data, curve and graph data, image-based data, and volumetric data. By converting data sets into dithered material deposition descriptions, through modifications to rasterization processes, we demonstrate that data sets frequently visualized on screen can be converted into physical, materially heterogeneous objects. Our approach alleviates the need to postprocess data sets to boundary representations, preventing alteration of dat...
An innovative approach for designing complex structures from STL-datasets based on novel software fo...
International audiencePhysical visualizations come in increasingly diverse forms, and are used in do...
The work presented here contains the first known comprehensive consideration of digital materials. D...
Digital materials are composed of many discrete voxels placed in a massively parallel layer deposit...
A novel digital printing concept is explored for desktop fabrication of multimaterial objects with a...
Digital materials are composed of many discrete voxels placed in a massively parallel layer depositi...
Three-dimensional (3D) printing technologies are increasingly used to convert medical imaging studie...
Additive manufacturing (AM) and in particular the application of 3D multi material printing offers c...
https://scholarworks.moreheadstate.edu/student_scholarship_posters/1009/thumbnail.jp
Materials in nature are mostly active, responsive, and transformative. Yet in conventional design pr...
As the amount of scientific data continues to grow, researchers need new tools to help them visualiz...
Three-dimensional (3D) printing technologies are increasingly used to convert medical imaging studie...
Traditionally, 3D models, even so called solid ones, can only represent the object's surface inf...
Three-dimensional (3D) printing technologies are increasingly used to convert medical imaging studie...
Next-generation engineering designs could be digitally conceived as vast constellations of material ...
An innovative approach for designing complex structures from STL-datasets based on novel software fo...
International audiencePhysical visualizations come in increasingly diverse forms, and are used in do...
The work presented here contains the first known comprehensive consideration of digital materials. D...
Digital materials are composed of many discrete voxels placed in a massively parallel layer deposit...
A novel digital printing concept is explored for desktop fabrication of multimaterial objects with a...
Digital materials are composed of many discrete voxels placed in a massively parallel layer depositi...
Three-dimensional (3D) printing technologies are increasingly used to convert medical imaging studie...
Additive manufacturing (AM) and in particular the application of 3D multi material printing offers c...
https://scholarworks.moreheadstate.edu/student_scholarship_posters/1009/thumbnail.jp
Materials in nature are mostly active, responsive, and transformative. Yet in conventional design pr...
As the amount of scientific data continues to grow, researchers need new tools to help them visualiz...
Three-dimensional (3D) printing technologies are increasingly used to convert medical imaging studie...
Traditionally, 3D models, even so called solid ones, can only represent the object's surface inf...
Three-dimensional (3D) printing technologies are increasingly used to convert medical imaging studie...
Next-generation engineering designs could be digitally conceived as vast constellations of material ...
An innovative approach for designing complex structures from STL-datasets based on novel software fo...
International audiencePhysical visualizations come in increasingly diverse forms, and are used in do...
The work presented here contains the first known comprehensive consideration of digital materials. D...