Technology transfer: paving the way for advanced manufacturing

Technology transfer: paving the way for advanced manafacturing
© EU, 2015

The European Commission's in-house science service – the Joint Research Centre (JRC) organises a workshop on "Technology transfer: paving the way for advanced manufacturing".

Advanced and clean manufacturing is a key driver of the upcoming industrial revolution. The aim of this workshop is to explore how technology transfer activities can be used as a mechanism to help EU industry, particularly manufacturing SMEs, to adopt new advanced and clean manufacturing technologies. Practical examples will be presented to illustrate the potential of technology transfer in this area.

The workshop will gather technology providers, industry executives, technology transfer officers, policy makers and financial intermediaries to share experiences and lessons learned. One of the key objectives is to discuss policy implications at all levels that could help accelerating the adoption of advanced technologies by the European manufacturing industry.

To support innovation in Europe, the JRC launched in 2011 theEuropean Technology Transfer Offices (TTO) circle, which brings together the technology transfer offices of the largest European public research organisations. In this context, this workshop has been organised in close cooperation with the European Factories of the Future Research Association (EFFRA), and other European Commission's services such as the Directorate-General for Research & Innovation, which supports R&I actions on advanced manufacturing systems under Horizon 2020, and the DG Internal Market, Industry, Entrepreneurship and SMEs, which leads the task force on advanced manufacturing for clean production.

Programme

Download the programme  [339 KB]

Presentations
 

Bertrand Fillon, Vice President of European Affairs at CEA/LITEN
Advanced manufacturing Technology Integration in Industry: Barrier and success levers  [5 MB]

Simon McCaldin, TWI
QCOALA: Quality Control Of Aluminium Laser-welded Assemblies  [1 MB]

Juan Antonio Arrieta, IK4 IDEKO
DYNXPERTS: Plug and produce components for optimum dynamic performance manafacturing system  [2 MB]

Claudio Cenati, National Research Council (CNR)
Development of a wireless manual guidance device for intuitive programming of industrial robot and additional examples  [3 MB]

Yves Bellouard, The École Polytechnique Fédérale de Lausanne (EPFL)
FEMTOPRINT: Femtosecond Laser Printer for Glass Microsystems with Nano- scale Features  [1 MB]

Marco Alvisi, ENEA
The solar receiver tubes for thermodynamic power plants: from lab to industry  [1 MB]

Paolo Gennaro, AVIO AERO
3D printing for the aeronautics industry of the future  [953 KB]

Egbert Jan Sol, TNO
3D food printing: the Barilla collaboration  [4 MB]

Georg Steinbichler, ENGEL AUSTRIA Gmbh
Optimum design of automotive structures using thermoplastic composites  [1 MB]

Jan Willem Gunnink, Delcam
COMET: Plug-and-produce COmponents and METhods for adaptive control of industrial robots enabling cost effective, high precision manufacturing in factories of the future  [1 MB]

Registration is now closed

5 Advanced Ancient Technologies That Shouldn't Be Possible

By Aatif Zubair,  Ivan Farkas September 19, 2014 1,272,659 views Viral

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Modern humans are the best humans. Just look back at those primitive troglodytes from hundreds of years ago: what a bunch of idiots. Probably don't even know how to work an iPhone. Truly, we are superior in every way, save for beard-growing abilities. Or are we? Historians are digging up evidence that indicates some ancient humans had their shit together in ways modern humanity can still barely manage. Just look at ...

#5. The Magical Roman Technicolor Cup

Lucas Livingston

The Lycurgus Cup is an Ancient Roman goblet kicking around at the Smithsonian. You might wonder what could possibly be so technologically advanced about a cup (does it shimmy over to the fridge and fill itself with beer?). Scientists didn't notice anything special about it either, until they held it up to the light. You see, it looks green when lit from the front:

Johnbod, via Wikipedia
No hellish scenes of the suffering damned here!

But when lit from behind, it turns a demonic red:

Sailko, via Wikipedia
There we go.

In 1990, British researchers tried to unlock the mystery of the devil's beer stein. What they found was that the glass was full of gold and silver flecks 1,000 times thinner than a human hair. Basically, the Romans discovered nanotechnology -- the science of manipulating incredibly small particles -- and used it to make a bitchin' pimp cup.

Via Wikimedia
"Veni, Vidi, VEYOTCHHH!"

To make the cup, they would have had to grind up gold and silver into grains many times smaller than sand and fuse it to the glass in specific proportions to produce subatomic effects that we're only just beginning to understand in recent decades.

For some reason, the scientists weren't allowed to take this millennia-old relic and fill it with Tang and tequila (That's a TnT, and we heartily recommend it) just to see what happened. So they did their best to replicate it and found that it would probably also have changed colors based on what kind of liquid was poured into it. It's a Hypercolor chalice! What's more, it's even more effective at detecting different kinds of substances in water than modern sensors are, which means that science is actually considering using a piece of technology from the time of Caesar to improve modern substance detectors. The Ancient Romans were so good at getting drunk that they broke the science of the future.

#4. Viking Compasses Nearly as Good as GPS

MR1805/iStock/Getty Images

Navigating the ocean back in ancient times was extremely tricky, given that they didn't have GPS, compasses, or even shuffleboard on those rickety old cruise ships. If you wanted to go from, say, Europe to the Americas back then, you were just as likely to crash into Madagascar since all that water looks the same out there. Scientists were puzzled about how the Vikings were consistently able to travel in a totally straight line from Norway to Greenland and back, some 1,600 miles, while the rest of the world was rowing around in circles, too proud to ask the passing mermaids for directions. Then, in 1948, they found an ancient Viking artifact under an 11th-century convent and concluded it was a shockingly advanced compass.

Proceedings of the Royal Society
Why anyone would be in a rush to get to Greenland, however, remains a mystery.

Before magnetic compasses, ancient mariners had to find their way using sundials, which told time and direction by shining a shadow onto a disc. As you can imagine, at night or even on a cloudy day, they were about as useful as reading tea leaves and sacrificing a goat to Odin. But the Viking compass, known as the Uunartoq disc, had ways of getting around that. On top of being an amazingly sophisticated sundial with several shadow sticks to work out the cardinal directions, medieval records of the device refer to a "magic" crystal that enabled it to work even when the sun wasn't available. And while we're still jaded enough to put "magic" in sarcastic quotes, researchers believe that a certain kind of crystal placed in the device could have created a pattern on the disc when exposed to even dim light, which they could have used to find their way.

Andrew J Shearer/iStock/Getty Images
A Global Pillaging System.

Upon testing, scientists found less than 4 degrees of error, which is comparable to modern compasses. Even with these results, we still don't know everything about the compass or if it was even more accurate, since half of it was missing when we uncovered it. In any case, we can confidently state the ancient Vikings at least had Apple Maps beat.

#3. Massive Drills and Natural Gas Pipelines in Ancient China

fpdress/iStock/Getty Images

Salt was a highly valuable resource in the ancient world, both as a preservative before refrigeration and as the only weapon keeping the slug people away. But when you live in a country as big as China, you can't necessarily make a trip out to the beach to collect some seawater. Because Safeway wouldn't be invented for another couple of thousand years, the Chinese had no choice but to dig down into the ground in search of that savory white gold.

And we don't mean they were really good with shovels. The Chinese invented a huge drill consisting of a length of bamboo with an iron bit at the end, which several men would use to excavate deep wells into the Earth. They may have looked comically unsafe, but by the 3rd century their salt wells reached as far down as 460 feet into the ground.

Via PVI Software
"Do you want to be the one to tell the emperor why Margarita Thursday was canceled? Then move your ass."

Their drilling methods weren't just ingenious, they were also sophisticated. They designed a whole catalog of drill tips for different circumstances, and even had a protocol for repairing cave-ins underground from the safety of the surface.

Zhong, Haung/Witcle Offset Printing
Or as safe as the area above a sinkhole being repaired with bamboo and reeds can get.

These bore-holes also released methane pockets, and so were dubbed "fire wells." But an initially explosive problem became an asset as the Chinese realized they could use this natural gas to power their prehistoric appliances. They transported the gas through a far-reaching series of bamboo pipelines which would carry both the saltwater and the gas great distances, including under roads. Sure, we have natural gas pipelines in the modern world too. But we don't have a tap that pours hot and cold running salt. Point: Ancient China.

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