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Proper Die Spring Applications
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The most common die spring problems are generally the most basic - the result
of improper selection and application. But trying to save a few pennies on die
springs or a few minutes on selection can result in enormous expenses in terms
of premature spring failure, increased maintenance costs and lost productivity.
That's why making sure you have the best die spring for every application is
truly a wise investment. |
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DO make spring selection a part of the
early design function, and work within the spring's physical limits. It's
best to determine which springs and how many are needed for the job before
the die is built. |
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DO preload each spring into the
assembled tool to prevent the possibility of shock loading, which causes a
stress surge in the vibration frequency and may result in early spring
failure. |
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DO provide safeguards from adverse
external elements such as heat, corrosive atmosphere, metal chips and
other obstructions. |
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DO provide proper guidance on all
springs to reduce the chance of buckling. As a general rule, if the free
length is more than four times the mean diameter of the spring, it could
have a buckling problem under compression. This is solved by using a guide
rod, boring a pocket, or both. |
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DO deepen spring pockets
proportionately when the die is sharpened to maintain the same spring
travel and load level. Each spring pocket needs to have a flat bottom and
square corners, so the spring will provide uniform stress on each coil as
it is compressed. |
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DO perform preventive maintenance on a
regularly scheduled basis. Keep records on the number of cycles each die
performs, and replace all the die springs at predetermined intervals. |
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DON'T replace only one spring, or mix
springs of assorted lengths and deflection ranges on a die. Instead of
using an unbalanced, mixed assembly of old and new springs, replace all of
the springs to distribute the load evenly. |
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DON'T alter a die spring by cutting off
coils or grinding the inside or outside diameter. Altering a die spring
causes early spring failure and creates the potential for damaging the
die. |
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DON'T expect maximum performance life
from a spring that is producing at maximum load. Although die springs are
designed to produce maximum load, they are highly stressed when maximum
loads are met. |
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DON'T wait; make spring selection a
part of the early design function, and work within the spring's physical
limits. It's best to determine which springs and how many are needed for
the job before the die is built. |
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DO call our knowledgeable customer
service and engineering professionals who are always available to assist
you with everything from custom sizes and special materials to technical
questions and unusual applications. |