3D printing for art and cultural heritage development
“This is one of those moments when technology changes what a museum can be.”
Chris Michaels, British Museum, Head of Digital & Publishing
The new digital technologies, to which 3D printing belongs, are processes that lead to the creation of a physical object starting from a digital file (2D or, more often, 3D). They are creating new opportunities and new tools for those working in the archaeological, artistic and historical field. In particular, 3D scanning and 3D printing technologies have introduced great innovations in the field of preservation, development and disclosure of our heritage.
The technologies involved in these fields are:
- 3D scanning
- 3D modelling
- 3D printing
These technologies allow us to:
- Catalog, archive any type of archaeological finds or artwork, even though they are irretrievably lost, thanks to the scanning and subsequent creation of a 3D model.
- Virtually restore, rebuilding missing parts only in a digital way or directly with reproduction of missing parts, thanks to 3D modeling and modeling
- Provide greater accessibility to works and finds with tactile path for disabled, such as blind and visually impaired, or to create more interactive tours for children and adults. And in these cases, 3D printing can revolutionize the enjoyment of works of art, giving it a tactile dimension and returning to the archaeological and historical-artistic heritage, a new life.
A theoretical-practical course to acquire important skills in a simple but effective way an bring new digital technologies in the field of valorisation and conservation of cultural heritage.
In July 2017 with the collaboration of Comune di Montebelluna, and Museo di Storia Naturale e Archeologia, with the support of Soprintendenza Archeologia, Belle Arti e Paesaggio per l’area metropolitana di Venezia e le province di Βelluno, Padova e Treviso, we organized the first MAKARS SUMMER SCHOOL in in Veneto region
An intense week of study and practice on the field to learn the rudiments of the two 3D detection techniques: photogrammetry and 3D scanning, 3D modeling and 3D model optimization, 3D printing.
Read here the diary of this experience
MAKARS SUMMER SCHOOL VOL.I - Introduction to 3D relief
MAKARS SUMMER SCHOOL VOL. II - 3D relief on the field with photogrammetry and 3D scanning
MAKARS SUMMER SCHOOL VOL.III - 3D models optimization and online publication
MAKARS SUMMER SCHOOL VOL. IV - Filament and resin based 3D printing