As an exhibitor at the Museum & Heritage show at Olympia, London, UK in May 2013, what struck me most was the diversity of projects that people in this sector were undertaking and the level of interest shown in how they could realise these projects through 3D scanning and printing technologies.
For several years now, the global media has been awash with stories of 3D scanning and printing (including the infamous ‘plastic’ gun) and everyone wants to be a part of the new technology, wondering how it may contribute to their sales and services in the coming years.
With the advent of sub-US$1,000 (£650, E770) 3D scanners and printers, there’s an urge to get involved because of the low level of investment needed. However, there’s a downside with production quality in this entry-level equipment, which is aimed at the home and hobby market.
You get what you pay for, and greater levels of complexity are required – both in the 3D scanning process and in 3D printing – to create professional exhibits, props, models, archive material and other items. The equipment involved at this level runs into tens of thousands of dollars and requires an intricate knowledge of the associated 3D software and hardware, so some people may find it wiser to invest in a professional 3D scanning service for their project rather than purchasing high-end equipment.
3D scanning
Scanning in 3D has been around for a couple of decades and has developed mainly in engineering circles to scan, manipulate data and manufacture or reverse-engineer industrial parts for the automotive and aerospace industries.
The development of 3D scanning equipment in this time has resulted in extremely accurate point-clouds of information creating a mesh, which can then be manipulated, rendered, used for casting or milling purposes, or printed out in 3D. Static 3D scanners are available for accurately scanning very small objects, such as jewellery or machine parts. Hand-held and laser-arm scanners are used for larger scale objects which need more comprehensive capture of the surface area, and large tracking scanners are capable of scanning whole buildings.
3D printing
3D printing allows 3D data to be “printed” in thin layers of ceramic, plastic and wax (for casting purposes) to build up the model and is ideal for industrial prototyping. Like 3D scanning, it has been around for a while in the engineering industries, but in the last few years the technology has improved with the demand.
For large-scale items, which can’t be printed on the footprint of even the largest 3D printers on the market, the 3D data can be used for milling purposes to create large-scale objects from metal, stone and other suitable materials.
Increasingly, the emphasis is shifting to the commercial and creative markets where the 3D data captured from the work of traditional model makers, for example, can be used to create sets and props for the TV and film industries.
This data-capture is also used in the film industry to rig the mesh and animate a scanned person or model-made creature and bespoke installations and the archiving of precious items in a non-damaging scanning process are proving popular with the attractions, museum and heritage industries.
Full 3D bodyscanning is now also available, meaning a person can be scanned in 3D and the data printed as figurines. This is becoming popularised in the form of pop-up shops in supermarkets or at exhibitions and festivals where the general public can be scanned and a colour 3D-printed figurine mailed to them at a later date (current 3D machine printing technology is still too slow to do on-the-spot printouts). Corporate clients are using the technology to 3D print their staff, fine artists are starting to experiment with the capabilities of 3D scanning and printing, and advertising agencies are using the technology to develop or revamp product packaging.
Fashion houses are using 3D scanning to prototype designs and generate 3D rotatable web imagery for products, while the data from 3D scanning is being use in pioneering Augmented Reality projects.
And so the applications of 3D scanning and printing start to become limitless. Virtually anything is possible, and for the attractions, museum and heritage industries, this means the ability to archive (or recreate) precious items, create 3D interactive installations, or print out miniature novelty items and facsimiles of objects
Print predictions
So what does the future hold for 3D scanning and 3D printing? As technology hurtles along, it won’t be surprising to see great advances in the quality of both scanners and printers, along with more competitive pricing and ease-of-use of the software and hardware to make the process more accessible to the public.
Printed foods, such as chocolate, are becoming available and various manufacturers are looking at the possibilities of people downloading 3D templates for household items and furnishings, which they can print out on home 3D printers.
It’s now possible to print in around 200 different materials, including 99.8 per cent titanium, using metal laser sintering, which will bring huge leaps forward in healthcare, while bespoke dental materials and body parts such as patellae are being tailored to individual needs.
And what of printing organic matter? Even further into the future, almost to the realms of science fiction, scientists and engineers are looking at replicating more than just metals, plastics and ceramics.
Bruce Hood – a psychologist at the University of Bristol – in his 2011 book The Self Illusion, says: “Imagine a machine that can copy any physical object, right down to its basic atomic structure. It can perfectly duplicate any material thing, irrespective of what it’s made of or how complicated it is.
“Remarkably, engineers are working on precisely this type of machine known as a 3D printer...It’s the sort of technology that would make constructing colonies on distant planets more feasible without having to transport every object.
“At the moment the technology is fairly crude and solving how to build internal structures of complicated objects made of different substances presents considerable challenges. However, just as the printing press of Johannes Gutenberg was considered a technological marvel in the 15th century, yet seems primitive by today’s standards, it may simply be a matter of time before we can manipulate matter to create accurate duplicates.”
Back on earth, for those operating in the attractions, museum and heritage industries, 3D scanning and printing is rapidly becoming a focal point in the areas of archiving, bespoke exhibition materials and educational projects.
The ability to create fully rotatable and high-resolution objects from 3D-scanned originals means children and students can interact with the 3D image in a screen environment where the item may be too precious to be handled. Or they can handle the recreated 3D printed version to experience size and detail.
From an archiving perspective, 3D scanning can capture high-resolution detail of an object, person or even a building. Whatever the size or scale of your project, 3D scanning and printing is here to stay and can add an array of solutions to help your operation.