Polygonica helps reconstruct 17^th century flute model to enable 3D printing of playable replicas

The Department of Engineering Science at Oxford University presented Polygonica with an interesting challenge; they had a complex mesh created from a 3D scan of a severely damaged part of a 17th century flute that was impossible to 3D print.

The Pitt Rivers Museum houses a collection of over 7,000 musical instruments from around the world and receives multiple requests for the instruments to be played. Unfortunately, many of the instruments are either too fragile to be played and risk being irreversibly damaged, or else have been contaminated by old pesticide treatments which now pose a health risk to anyone wanting to play them.

The Department of Engineering Science at Oxford University and the Conservation Department at Oxford’s Pitt Rivers Museum are collaborating to create playable replicas of antique musical instruments using 3D scanning, reverse engineering and 3D printing .  The team includes Andrew Hughes and Jeremy Uden from the Pitt Rivers Museum and Alfonso Castrejon-Pita, Peter Walters and Benjamin Fudge from Oxford University Department of Engineering Science.
 

About Polygonica

Polygonica is a  solid modelling software toolkit  for processing polygon meshes. Built on MachineWorks' core engines, Polygonica's unique polygonal modelling technology takes advantage of 25 years of development providing automatic, fast and robust Boolean operations. Other algorithms in Polygonica allow solid healing, simplification, slicing, sectioning and spun profile calculation.

Polygonica has a wide range of applications such as CFD/FEA meshing, CAD/CAM/CAE,  additive manufacturing  where there is a requirement to repair defective models with vast numbers of polygons, rapid prototyping, reverse engineering, 3D movies and gaming, geo-exploring, urban modelling and other 3D digital applications.

www.polygonica.com