31. A scaffold for a bladder seeded with a patient's cells. In 1999,
Dr. Anthony Atala led a research team that successfully impla
nted the world's first ...
32. As 3D printing advances at an astonis
hing rate, will it soon be possible to
3D print a human body? Rhiannon W
illiams investigates
35. The biomaterial consists of three powders which must be mixed with a fourth binding factor powder, along w
ith whatever type of living cells the user wants to print. All this is mixed together and put into the device whi
ch then pushes it through a syringe onto a tissue culture dish in the build area where the blue light is applie
d. The BioBots team members aren't aiming for attachable ears or fully transplantable organs to start. Rather,
they see the machine as enabling pharmaceutical and medical testing, especially in nations where animal testi
ng is banned – researchers could easily print the tissues they need to conduct their tests instead.
The
Second
generati
on
Version
of
BioBots
for
$25,000.
37. The ability to bio-print tissues and organs could one day allow us to
create custom body parts that could be used for transplants. New res
earch has brought that possibility one step closer to reality. Scientists
have bio-printed artificial vascular networks that mimic the body's circ
ulatory system. the University of Sydney study, the technique demo
nstrated better cell survival. 2014. 8.
39. Called G3DP (Glass 3D Printing) and developed in collaboration with
MIT’s Glass Lab, the process is an additive manufacturing platform wit
h dual heated chambers. The upper chamber is a “Kiln Cartridge,” op
erating at a mind-boggling 1900°F, while the lower chamber works to
anneal (heat then cool in order to soften the glass). The special 3D pr
inter is not creating glass from scratch, but rather working with the pr
eexisting substance, then layering and building out fantastical shapes
like a robot glassblower. 2015. 8. 20
40. Ceramics are amazing materials—strong, light and with amazin
g thermal properties. Now, researchers have developed a new
way to 3D print the materials more effectively than in the past,
and the results can withstand temperatures of 2,500°F.
41. The process developed by the HRL team can create a cer
amic material that is said to be ten times stronger than si
milar materials. 2016. 1.5
42. laser light and oxygen to print out.This new Carbon3D pri
nter totally looks like the science fiction future but it's real. The liquid
3D printing method uses liquid resin, laser light and oxygen to print
out things up to 25-100 times faster than traditional 3D printers. It's f
ascinating technology and it looks like things are just magically rising
from the gooey liquid, fully formed. Below, you can see it print out a
Eiffel Tower model pretty quickly. 2015.3.20
43. liquid resin, laser light and oxygen to print
out things up to 25-100 times faster
44.
45. Redwood City, Califor
nia – based Carbon3
D has debuted a new
technology this week
at the TED2015 confe
rence in Vancouver th
at can speed up exist
ing 3D printing times
by 25 to 100 faster u
sing a new technolog
y that they are calling
Continuous Liquid Int
erface Production (CL
IP).
48. 10 times faster and 50% less expensive
3만개 노즐, 초당 3억5천 드롭
2014. 11. 6
The printer works by first depositing powder (about 100 microns thic
k, or the thickness of a standard sheet of paper) onto a print bed
using a print bar that looks like a scanning bar on a typical 2D prin
ter. The print bar has 30,000 nozzles spraying 350 million fusing
agent droplets per second in specific patterns as it moves back a
nd forth across a print platform.
2016년에 나오는
HP3D프린터
세탁기와 비슷한 크기
10배 빠르고 50% 싸.
일반소비자용 아닌
제조업자 용
49. Steve Nigro, senior vice
president of HP's Inkjet
and Graphics Solutions
Businesses, introduces t
he new Multi Jet Fusion
printer at a press event
in New York City 2014.1
1.6.
57. 3ders.org - New Dutch CyBe robot 3D prints a wall with 'greene
r' concrete | 3D printing houses and other concrete structures. T
he Dutch company, that was founded in 2013 and has offices in
Amsterdam, Eindhoven and Oss, is therefore definitely one to k
eep an eye on.
60. The 3D printer on the International Space Station is up a
nd running! The first object manufactured on the station
instead of delivered to it is a faceplate ...
64. The original Local Motors 3D printed car was impressive, in concept, but was still clea
rly experimental. Based on a Renault Twizzy drivetrain, it would really only be capable
of 40 MPH or so — but, considering it’s a proof of concept, that’s still remarkable. Th
at first car, Strati, weighed a bit more than a stock Twizzy, but pointed the way to a v
ery exciting future of auto design and manufacture. 2015. 11. 9
65. LM3D Swim, was designed by a Local Motors “community” member name
d Kevin Lo. About 75% of the Swim is 3D printed, which mostly means basic
ally all of the body and chassis panels. From design selection to final, workin
g prototype only took an astounding two months. The swim is much more fi
nished than earlier attempts, with more glass, interior fittings, a roof, etc.
66. Pledging Zero Deaths By 2020
Volvo is already embracing autonomous technology in a very serious way. Many of th
ese features are already available on Volvo’s XC90 SUV, includingPilot Assist andcomp
rehensive collision avoidance technology. Volvo’s also developed its own autonomous
technology, named Intellisafe, which is being tested on roads in Sweden right now.
68. Sweden sees autonomy as a big part of its road safety plan, with the potential to save many liv
es by getting this tech onto streets faster, Volvo’s autonomous driving program director Marcus
Rothoff told me. But even from a transportation spending standpoint, it makes more sense for
cities to work closely with carmakers to target their investments towards technological trends. “
Cities are making decisions 70 years out—compared to that, seven years is a long time for auto
makers,” he said. “We have the chance to save them quite a bit of money.”
69. In a test of the autopilot sensors on the Tesla Model S that in
cluded things from stuffed animals to kids, a YouTube user fou
nd some odd results. 2016. 3. 14
70. IR3 can embed wiring within plastic components
using conductive material. 2015. 5. 6
85. Katie Gallagher Fantasm collection. 3D-printed design by Bradl
ey Rothenberg and printed by Materialise. Photo credit: David
Kepner.
86. lindseyzinn.wordpress.com Before this dress, all previous 3D pr
inted dresses have been made in multiple parts that required
some assembly, but this was the first that was wearable ..
95. Dutch fashion designer Iris van Herpen s
howcased shoes that looked like works
of abstract sculpture for her Haute Cout
ure Fall 2013 collection in Paris.
네델란드 패션디자이너 아이리스 밴 하펜,
2013년 가을 파리 콜렉션
96.
97. • Julia Koerne
r in collabor
ation with Iri
s van Herpe
n and Mater
ialise _Haute
couture sho
w Voltage in
Paris 2013.
107. Imagine you’re in a bare kitchen. All that’s in it is a 3D food printer. That’s right, no stove, no microwave, no oven, not
hing. Dinner time comes and lets say you fancy a burger. And not just any burger, you want that awesome pork and c
heese burger you had at your favorite hawker stall downtown. You download the digital recipe from the internet, load
it up onto your 3D printer, and then hit print. From the base ingredients of protein, carbohydrate, fibre and other trac
e elements, your 3D printer then prints out the exact same burger from scratch. Nowadays, you can buy your own pe
rsonal 3D printer on the internet for as low as US$200. An increasing number of people are buying them to print stuf
f for their home. These printers won’t print food, but they can come in handy when you need an expensive spare part
for your household appliances. Or a chip for your computer. You could even print a customized toy for your children
or a special ornament for your Christmas tree. With their versatility, personal 3D printers will quite possibly become a
necessary household item over the next 10 years. And even if you don’t have one, you could just as easily visit the ne
arby shops (think photocopying shops) and print what you need.
108. The printer will build food by using the basic “building blocks” of the food in powder
form and then layering them together. After printing chocolate in order to prove the
system works on a basic level, Contractor is said to be working within the next few w
eeks on pizza, a much more complex substance with multiple elements. This technol
ogy will allow astronauts to have a sustainable food supply for years as the cartridge
s will have a lifespan around 30 years. This sort of innovation could very well change
how we regard space travel and could potentially open up the possibility of longer a
nd more adventurous missions, no longer held back by a dwindling food supply.
In addition, this sort of technology could be used on Earth to help stop world hunge
r. If successful, this printer could be one of the most important inventions of the 21st
century — and that’s saying a lot.
111. 3D-printed food doesn't exactly sound appetizing. But a Spanish-base
d startup, Natural Machines, is hoping to change it. Natural Machines
is developing a 3D printer that will allow you to print your own food, a
nd it can be used to turn fresh ingredients into finished edible objects
such as cakes and ravioli.
118. Snacking on a freshly-made pizza in outer space just got a whole lot closer thanks
to Anjan Contractor's 3D pizza printer. Contractor, who won NASA's US$125,000 gr
ant last year to create a 3D printer that could print food for astronauts on mission
s, has come out with a functional prototype. Contractor plans to equip the 3D prin
ter with food cartridges that last for 30 years. Contractor says that it only took 70
seconds to cook the pizza once it was printed out. NASA implements the technolo
gy, astronauts will be able to get 3D-printed fast food in space.
129. tinkerer Andrew Maxwell-Parish and found by Sploid, is great.
It’s almost a satire of the utopian vision of 3D printing compar
ed to the reality, where the printer.
