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Vacuum Metallization
Overview
“Vacuum metallization is the process of evaporating metals (most
commonly aluminium) inside a vacuum chamber to achieve a uniform
metalized layer”, says Mr. Glenn Mueller, Vice President of Mueller
Corporation, a leading provider of vacuum metallization services. “It
is utilized for different applications, including EMI/
RFI shielding, as a chrome alternative, for decorative metallic
finishes, to create highly reflective coatings, heat shielding, and
others. The different finishes include chrome, gold, bronze, colored
chrome, and matte metallics such as satin nickel and matte silver”.
“3D printing using Objet’s systems provides an excellent solution for those who search for vacuum metallization
applications,” add Mr. Glenn Mueller. “Demanding high quality printing
with remarkably fine details, such models can be produced easily using PolyJet™ 3D Printing Technology due to the ultrathin layer thickness and high printing resolution.”
Vacuum metallization - The Process:
The vacuum deposition process is a physical, rather than
electrochemical, method of depositing metals onto a substrate. The
deposition takes place within a vacuum chamber where metal is melted
and then becomes gaseous when it reaches its vapor point. Gas molecules
traveling by line of sight then condense on the desired substrate,
creating a relatively uniform coating. The vacuum system itself
consists of an airtight chamber where the deposition process occurs.
Outside the chamber, multiple pumps evacuate air to the desired process
pressure. A power supply is used to deliver the required voltage to an
electrode, which connects a series of standoffs
holding tungsten filaments loaded with the desired metal for
vaporizing. There are eight to ten major steps in the vacuum
metallization process.
A typical application may take between two to three hours for
completion. The substrates that work well for vacuum metallization
include metal (tin, steel, aluminum, etc.), plastic (ABS,
polypropylene, styrene, etc.) and glass.
To achieve a brilliant blemish-free coating, the raw substrate must be
free of surface contamination, such as mold releases, fingerprints,
dirt, dust, oil and grease.
The first step in the process is to assemble the parts on production
racks. Parts need to be held securely as they go through a variety of
painting and metallization processes. This is usually done with
circular racks made of steel and welded together in various
configurations. Usually, spring-type clips, mounted onto the racks, are
utilized. Part design can be important because clip marks or scars can
be left where the part is attached to the rack.
Typically, parts for metallization can have holes, ribs, pins or a
small section of a runner on them for holding in areas on the parts
that are not critical Class A surfaces. Base or primer coating is added
after the parts have been through a destatic blow-off area. The base
coat is applied with HVLP guns utilizing automated reciprocating and
robotic spray paint lines.
Base coating acts as an adhesion-promoting layer between the substrate
and the metallization and thus the base coating creates a smooth
reflective surface. After the basecoat is applied, the racks are placed
in a bake oven for curing. The bake cycle is approximately one to two
hours. Racks are then ready to be placed into the vacuum chamber to be
metalized. After metallization the racks are again placed into the
paint lines to receive a clear or tinted topcoat which protects the
thin layer of aluminum from wear and abrasion and transforms the bright
chrome into the different finishes available. The top coat-painted
racks then go through a bake cycle to cure the top coat.
Reader’s Note:
Vacuum metallization can replace more costly electro-plating as
a decorating option in many applications, such as reflectors, toys,
point of purchase displays, caps, closures, trophies and household
hardware, and more.
Disclaimer
Objet Geometries Ltd. is not responsible for misuse of our
products or their use in conjunction with unsafe or improperly
maintained equipment or for uses other than intended as specified in
this application note.
Information and pictures in this applications note are curtosey of
Mr. Glenn Mueller, Vice President of Mueller Corporation.
www.muellerp.com
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Picture 1. Chamber ready for fixtures
Picture 2. Parts emerging from chamber
Picture 3. The vacuum chamber
Picture 4. PolyJet model coated with gold
finish
Picture 5. PolyJet model coated with
chrome finish
Picture 6. Vacuum metalization samples
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