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Self Clinching Fasteners
SELF-CLINCHING FASTENERS
Self-clinching fasteners provide strong, quality threads
in metal and P.C. boards too thin to be tapped. Broadly defined, a self-clinching
fastener is any device, usually threaded, that, when pressed into ductile
metal, displaces the host material around the mounting hole, causing it
to cold flow into a specially designed annular recess in the shank or
pilot of the fastener. A serrated clinching ring, knurl, ribs or hex head
prevents the fastener from rotating in the host material once it has been
properly inserted (see Figure 1). Thus, self-clinching fasteners become
a permanent part of the panel, chassis, bracket, or other item into which
they are installed. The main brand of self-clinching fasteners used at
Hansen Industries is PEM® fasteners, which are manufactured by
the PEM® Fastening Systems Division of Penn Engineering & Manufacturing
Corp (http://www.pemnet.com).
Figure 1: PEM® Self-clinching Fastener
Self-clinching fasteners:
- Provide good pullout and torque loads in sheet metal
that is too thin to provide secure fastening by any other method.
- Are often more economical to use than tapping the metal
sheet when guageable threads are required.
- Require less space and less handling than when using
caged or anchor nuts.
- Require fewer assembly steps as hardware is installed
during fabrication resulting in less total assembly time.
- Provide for a neat appearance through compact design
and low profile.
In order to provide corrosion protection or surface preparation for powder
coating, it is common to anodize or chromate conversion (Alodine®)
aluminum parts. Due to the chemical reactions of different materials during
the finishing processes, designers should be aware the following potential
problems when using self-clinching fasteners on parts and assemblies:
- Cannot insert any self-clinching fasteners before
anodizing. Under normal anodizing conditions, most metals such as steel
or copper that are attached to the aluminum part will plate off and
effectively disappear.
- Cannot insert any plated self-clinching fasteners
before chromate conversion coating as the acid will take off the plated
material during cleaning process
- Can insert only stainless steel self-clinching fasteners
before chromate conversion coating, if the color of the fasteners is
to be the same as the color of the parts.
Designing fasteners too close to the edge or the bend of a part is a common
source of product failure and can make the part expensive to manufacture.
When installing self-clinching fastener, we have to pay attention to the
minimum distance required between the centerline of the mounting hole
to the edge or the bend of the part. As mentioned above, a self-clinching
fastener is pressed and displaces the host material around the mounting
hole. When working close to the edge, the sheet metal bulges allowing
critical material to move away from the clinch area, reducing the pullout
and torque loads of the fasteners (check the minimum distance requirement
in the PEM® fastener catalog). When working near a bend, even though
the material will not move away from the mounting hole, the hole will
deform to an oval shape if too close to the bend. Also, we have to take
into consideration of the accessibility of installation equipment and
tools.
There are many different types of PEM® fasteners
available for different applications. The most commonly used are self-clinching
nuts, self-clinching studs, self-clinching standoffs, fasteners for PC
boards, and panel fasteners. The threads are available in both unified
and metric. Different shank codes are also available for different thickness
of the sheet metal. Typically materials are steel, carbon steel, stainless
steel, and aluminum with different finishes, such as, zinc or nickel-plated.
Each PEM® fastener is identified by its specific part number, for
example:
Figure 2: PEM® Fastener Part Number Designation
Other design tips are:
- Don’t design in a fastener that is impossible
to buy. Become aware of the most commonly used fasteners. This can be
done by phoning Hansen or the local representative of PEM® fasteners
(1-800-DIAL-PEM®) and finding out the availability of PEM® fasteners.
Some PEM® fasteners have 6 – 8 week lead times with minimum
purchase of 5,000 fasteners.
- Try to use common fasteners across product lines.
- PEM® fasteners can easily double the cost
of a part. Consider using slots or rivets as an alternative
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