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The
3D revolution is bringing about an irreversible change to the world.
The 3D imaging technology is a central part of this change. And it’s
causing a very fundamental shift in the functions of various
industries. Having entered the market as somewhat of a novelty,
industries have been quick to adopt 3D imaging and mold it to suit
their needs. As a result of this upswing in the adoption and
commercial-scale usage of 3D imaging, the global 3D imaging market is
expected to grow to nearly five times its current size by 2021,
predicts Transparency Market Research.
Detailed
Description of 3D Imaging Market is available at:
The
business intelligence firm says that the global 3D imaging market
stood at US$3.51 bn as of 2014 and will show sturdy growth to touch
US$17.99 bn by 2021, representing a 26.8% CAGR between 2015 and 2021.
What
makes 3D Imaging a Transformative Technology?
The
possibilities of 3D imaging, especially when combined with other 3D
technologies such as additive manufacturing, can be limitless. From
trinkets to sophisticated medical components, 3D imaging is
introducing the world to disruptive solutions. Here’s how:
Advancing
Manufacturing to the Next Level:
3D imaging has now made it possible for engineers to create basic
prototypes and manipulate their scanned versions as desired to create
highly complex objects and parts. Once the virtual improvements are
made and the design frozen, the final prototype can be 3D printed.
Besides optimizing the quantity of material used, 3D imaging has also
helped speed up new product design giving manufacturers the power to
bring their products to the market faster than before.
Making
Image Acquisition Easier:
A three-dimensional image of an object can be acquired via several
different methods. While in some cases the use of 3D cameras is most
preferred, technicians are also creating extremely intricate and
complex images by using computed axial tomography (CT), which uses
multiple x-rays to render the exact internal structure of an object
on a display screen. In addition to cameras and CT, the 3D imaging
market now also carries sensors and lasers that can be used to render
an a detailed image of an object. LIDAR, for example is used for 3D
imaging projects involving landscapes.
Browse
Sample Report at:
Helping
Save Lives:
The healthcare industry, which is characterized by its focus on
innovation, has adopted 3D imaging at several different levels.
Bioprinting, which is a branch of 3D imaging and printing, is being
widely used to design and print muscle, cartilage, and skin. For
instance, scientists at the Wake Forest University recently were
successful in creating a 3D bioprinting tool that can ‘print’
muscle tissue, synthetic bone, and cartilage. They even bioprinted a
human ear that’s capable of being transplanted into humans.
The
3D imaging market, however, has more to offer than just advanced
systems and experiments. Products that can be used by the average
consumer in their everyday life are now increasingly trickling into
the market. A case in point would be a hand-held 3D imaging system,
Walabot, which enables people to see through liquids, objects, and
materials. What’s unique about this system is that it can be
downloaded on smartphones to instantly turn the ubiquitous device
into a 3D imaging system. With 3D imaging technology percolating to
the consumer level, the possibilities are indeed endless.
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