3D technologies have been around for years – but it’s only now that 3D scanning and printing devices have become both accessible and affordable for many users. The result? New uses are blossoming in every field.
New uses for 3D technologies
Macquarie University’s Education Studio actively cultivates thinking “outside of the box” to encourage innovative developments in teaching and learning. In our work, we have seen a great interest in using 3D approaches.
One studio project, Digitisation, 3D modelling, analysis, preservation and replication of small objects of antiquity, is an unusual partnership between Dr Jaye McKenzie-Clark, a historian of the ancient world, and Professor John Magnussen, from the Australian School of Advanced Medicine.
Their combined expertise – in ancient artefacts and modern medical imaging – is being applied to the problem of non-destructive analysis of ancient pottery. We’re seeing some of the newest techniques in modern medicine investigating some of the oldest technology and writing in history.
Macquarie’s Museum of Ancient Cultures is fortunate to hold 24 Cuneiform tablets, dating from the third millennium BCE. These represent the oldest known form of writing in its collection.
In the past the only way to see what lay hidden inside was to destroy the outer shell. McKenzie-Clark and Magnussen have reproduced these ancient artefacts using 3D printing. They have used state-of-the-art CT scanners to analyse their composition – without even removing them from their boxes.
They have also used CT and 3D laser printing to create accurate replicas of ancient artefacts such as Gallic Sigillata (sealed clay) bowls and cuneiform tablets.
Touch the Bones
Another project generated out of the Studio, Innovations in Hands-On Anthropology: 3D Printed bone fragments, is led by Associate Professor Greg Downey. He is recreating bones with the help of 3D printing facilities for use in anthropology classes.
3D copies of 3.2-million-year-old bones – ready for use in the classroom. (Stef Savannah)
Multiple sets of pelvis bone fragments from “Lucy“, the 3.2-million-year-old partial hominid skeleton found in East Africa in 1974, have been 3D-printed in PLA plastic for use in practicum classes.
These 3D printed bones allow students to manipulate the fragments into the most likely configuration and from this draw conclusions relating to childbirth and bipedalism – much as the professional anthropologists had to do when the bones were first discovered.
Egypt in 3D
Finally, Dr Yann Tristant, in conjunction with the Educational Design and Development group at Macquarie University, has developed the Virtual Egyptology program to support his teaching with the development of rich graphic activities for students through the use of 3D-scanned artefacts.
The web-based interface that works across all modern browsers and mobile devices lets students view the models without the need for worrying about plug-ins or learning complex standalone software.
The prototype that was developed during the course of this project is now being developed into a university-wide platform to enable interactive in-browser delivery of 3D media to learners and enthusiasts anywhere in the world.
3D technology is changing the way researchers and educators interact with artefacts in museums. As the technologies change, develop – and become more affordable – we’ll continue to see new applications spread.
Macquarie University’s Education Studio, in conjunction with Museums and Galleries NSW is holding a symposium on 3D technologies in museums and galleries on July 8.
Helen Carter is Director of the Education Studio which, in conjunction with Museums and Galleries NSW, is holding a symposium on 3D technologies in museums and galleries on July 8. This article was originally published on The Conversation. Read the original article.