The range of available
materials is one of the key hurdles
to adoption for industrial 3D printing. 3D printing
is being rapidly adopted by
product manufacturers all around the world, but it still can't compete with
many other manufacturing techniques with respect to material diversity. A large
number of the most commonly used industrial plastics still aren't widely
available for 3D printers, making 3D printing unsuitable for many applications.
A full discussion of
materials available for 3D printing
and the remaining white spaces can be found in the IDTechEx research report 3D
Printing Materials 2016-2026 Industrial polymer giants, 3M, have just
widened the range. Through a new patent-pending technology they have
successfully 3D printed fully-fluorinated PTFE polymers. Polymer specialist 3M,
including its subsidiaries Dyneon GmbH and Dyneon B.V., is one of the world's
leading manufacturers of PTFE and similar materials such as fluoroelastomers
and fluorothermoplastics. It makes sense for them to be looking to expand into
the 3D printed space.
PTFE (polytetrafluoroethylene) is an extremely useful
material, used in many everyday products. It is very hydrophobic, meaning that
neither water nor water-containing substances make it wet, so it is used in
outdoor clothing. It also has one of the lowest friction coefficients of any
solid. It is the only surface a gecko cannot stick to. This property makes it
perfect for non-stick coatings for bakeware. Bacteria and other microbes also
have a very hard time adhering to the material, making it a very good option
for various hospital applications, such as catheters.
Other fluoropolymers are
also heavily used in the oil and
gas, chemical, automotive and aerospace industries, and it is possible that the
same 3D printing technology could be applied to them. This breakthrough makes
it possible to 3D print a whole new class of materials, which will influence
many industries.
Normally, parts made from
PTFE and other fluoropolymers are
manufactured using expensive traditional processing techniques, which typically
create a lot of waste. It is also difficult to create very complex structures.
3D printing has the potential to offer more sustainable manufacturing and a
wider variety of designs. The breakthrough is already paving the way for
previously impossible applications.
Tags: 3Dprint,PTFE
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