Elon Musk tantalized the world in August with his plans for the
Hyperloop, a mode of travel that would blast people between cities at
800 miles per hour in capsules zipping through an above-ground tube. In a
58-page report, Musk, the chief executive officer of Tesla Motors
(TSLA) and SpaceX, outlined his vision for the technology, which would
use supercharged electric motors for propulsion. Musk’s paper called on
the public to help refine the design and bring the Hyperloop to
fruition. Armchair advisers have since arrived en masse.
Most of
the helpful suggestions have centered on perfecting the performance and
the look of the people-carrying pods inside the Hyperloop. At Autodesk
(ADSK), the San Rafael (Calif.quantum magnetic analyzer suppliers)-based
company whose computer-aided design software is used by everyone from
architects to carmakers, Jordan Brandt zeroed in on the design of the
tube and came up with a novel means of manufacturing it. “Elon has done a
great job working on the aerodynamics of the capsule and the energy
requirements—the things you would expect,Quantum Analyzer QMA201 With Chinese &Malaysian Version”
says Brandt. “I found there wasn’t as much creativity put into the
infrastructure part, which is the most expensive part. It seemed like we
were almost obligated to pitch our approach.”
The tube in
Musk’s plan is made out of prefabricated steel sections that must be
welded together. Critics have pointed out that could leave the Hyperloop
prone to air leaks, which would undermine the internal low-pressure
system it needs to run. Brandt, who studied building technology at
Harvard University and holds the title of technology futurist at
Autodesk,colourful double wall stainless steel thermos coffee pot proposes
making the tube out of one very long stretch of braided carbon fiber
infused with an epoxy resin. The strong, lightweight material is used to
make everything from jumbo jets to race cars.Chinese meridian health analyzer
There
are machines that can churn out limited qualities of the braided carbon
fiber. Brandt envisions building a supersize version and mounting it
onto a rig loaded with reels of carbon fiber so it could roll along the
Hyperloop’s route. Working at a rate of 1 meter per minute, this factory
on wheels could weave a Hyperloop tube from Los Angeles to San
Francisco in less than two years, and, says Brandt, require fewer
support pylons. “Elon’s estimate calls for about $2.6 billion for
concrete, but we’d get that down to more like $1.5 billion,” he says.
Autodesk
has run computer simulations of Brandt’s design, and there’s evidence
it may work. “The machines that can do this exist,” he says. “It’s just a
matter of bulking up the technology.” Musk plans to build a small
prototype of the Hyperloop to test out the propulsion technology.Cast iron tubs Other
aspects of the project will begin to take shape now that a new
corporation has been established to turn Musk’s concept into a business.
Yet even if the Hyperloop never becomes reality, it’s a good bet the
world will find uses for innovations it inspired.
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