Do you have stock or standard springs?
From Elite Springs Catalogue customers are able to find standard specifications that are conveniently available for clients through our catalogue. Elite Springs catalogue is ideal for engineers and toolmakers to source for cost effective designed products and prototyping new assemblies.

What are the advantages of having stainless springs passivated?
For stainless steel springs to provide proper corrosion resistance, a process of acid treatment called passivation is done to remove iron deposits.

Why are Stainless Steel springs magnetic after production?
Stainless steel material become magnetic after a production working process.

Does it make a difference on a torsion spring whether its left or right hand wound ?
Yes. To reduce the likelihood of torsion springs taking a set, the spring should be coiled in the direction that result in increased coil count as load is applied. In other words, the spring should be coiled such that it "winds up" when load is applied. If the spring "unwinds" as load is applied, it should probably be coiled in the opposite direction.

What is initial tension ?
Initial tension is most often applied as it relates to extension spring. Extension springs are usually manufactured in a manner that requires a certain amount of force be applied before any deflection is realized. This minimum force is referred to as "initial tension". The load vs deflection chart below shows the effect graphically. The load PI is required to overcome the spring's initial tension. From that point, the spring force increases with deflection at the spring rate. See Chart below .

If I stack two springs, would the rate stay the same ?
Stacking springs definitely changes the spring rate. The effective spring rate of the stack will be less than the softest spring in the stack.

If I cut a spring in half, would the rate stay the same ?
Cutting springs generally decreases the number of active coils. Therefore, there is an increase in spring rate.

How do I know if a spring is Right hand wound or Left hand wound ?
By looking along the axis of a spring, you can curl your index finger so that it follows the same direction as the wire from the spring body to the wire tip nearest you. If the end coil wraps in the same direction as your index finger then it is that hand (right or left). The illustration below shows a method for a Right hand wound spring.

How long will a compression spring last ?
The effective life of a compression spring depends primarily on the time cyclic. In cyclic applications, springs are generally designed for maximum lifespan; however, application nuances such as resonant vibration could highly reduce spring life.

Can Disc Springs be Stacked?
Yes. Belleville Disc Springs can be stacked in either a series or in parallel to sustain greater loads and/or deflections than when using a single spring.

How far can I safely compress a compression spring?
Compression force depends on the design and material of the part. While normal compression springs can safely be compressed to their usual rate without damage, it is not recommended for parts with relatively few coils. Material is also a factor.

What is your minimum order quantity ?
MOQ or minimum order quantity affect pricing.

Active Coils - Coils that deflect under load.

Angular Relationship of Ends
- Position of hooks or loops of an extension spring (or ends of a torsion spring) to each other.

- Heating of electroplated springs to relieve hydrogen embrittlement.

Close Wound
- Adjacent coils which are in contact

Closed and Ground Ends -
Same as Closed Ends, except the first and last coils are ground to provide a flat bearing surface.

Closed Ends -
Compression spring ends with coil pitch angle reduced so they are level with the spring axis and touch the adjacent coils.

Deflection -
Motion imparted to a spring by application or removal of an external load.

Elastic Limit -
Maximum stress to which a material may be subjected without permanent set.

Endurance Limit -
Maximum stress, at a given stress ratio, at which material will operate in a given environment for a stated number of cycles without failure.

Fixture Tempering -
Restraining parts during tempering to improve dimensional control.

Free Angle -
Angular relationship between arms of a helical torsion spring which is not under load.

Free Length -
Overall length of a spring which is not under load.

Heat Setting -
A process to pre-relax a spring in order to improve stress relaxation resistance in service.

Helical Springs -
Springs made of bar stock or wire coiled into a helical form. This category includes compression, extension and torsion springs.

Hooks -
Open loops or ends of extension springs that are generally longer than a standard loops.

Hysteresis -
Mechanical energy loss occurred during loading and unloading of a spring within the elastic range. It is illustrated by the area between load-deflection curves.

Initial Tension -
The force that tends to keep coils of a close wound extension spring closed and which must be overcome before the coils start to open.

Loops -
Circular formed ends, with ends of extension springs that provide a means for attachment.

Mean Diameter -
The average diameter of the mass of spring material, equal to one-half the sum of the outside and inside diameters. In a helical spring, this is the equivalent to the outside diameter minus one wire diameter.

Modulus in Shear or Torsion -
The coefficient of stiffness used for compression and extension springs.

Modulus in Tension or Bending -
(Young's Modulus) The coefficient of stiffness used for torsion or flat springs.

Moment -
A product of the distance from the spring axis to the point of load application, and the force component normal to the distance line.

Natural Frequency
- The lowest inherent rate of free vibration of a spring vibrating between its own ends.

Passivation -
An acid treatment for stainless steel which removes iron deposits and improves corrosion resistance.

- The process of heating carbon steel above its critical temperature and cooling at a controlled rate to achieve a fine paralytic microstructure.

Pitch -
Distance from center to center of wire in adjacent coils in an open-wound spring.

Plain Ends -
End coils of a helical spring having a constant pitch and ends not squared.

Plain Ends, Ground -
Same as Plain Ends, except wire ends are ground square with the axis.

Preset -
See Set Removal

Rate -
The change in load per unit of deflection. Generally expressed as Lbs/in or N/mm

Residual Stress
- Stress mechanically induced by such means as set removal, shot-peening, cold working, or forming. It may be beneficial or not, depending on the spring application.

Set Permanent
- Change of length, height or position after a spring is stressed beyond material's elastic limit.

Set Point -
Stress at which some arbitrarily chosen amount of set (usually 2%) occurs. Set percentage is the set divided by the deflection which produced it.
Set Removal - An operation which causes a permanent loss of length or height due to spring deflection.

Shot-Peening - Blasting the surfaces of spring material with steel or glass pellets to induce compressive stresses that improve fatigue life.

Slenderness Ratio - Ratio of spring length to mean diameter L/D in helical springs.

Solid Height - Length of a compression spring when deflected under sufficient load to bring all adjacent coils into contact - no additional deflection is possible.

Spiral Springs - Springs formed from flat strip or wire wound in the form of a spiral, loaded by torque about an axis normal to the plane of the spiral.

Spring Index - Ratio of mean diameter to wire diameter.

Squared and Ground Ends - See Closed and Ground Ends.

Squared Ends - See Closed Ends.

Squareness - Angular deviation, between the axis of a compression spring in a free state and a line normal to the end planes.

Squareness Under Load same as Squareness but measured while there is a load applied to the spring.

Stress Range Difference in operating stresses at minimum and maximum loads.

Stress Ratio Minimum stress divided by maximum stress.

Stress Relief - A low temperature heat treatment given springs to relieve residual stresses produced by prior cold forming.

Torque - A twisting action in torsion springs which produces rotation. Equal to the load multiplied by the distance (or moment arm) from the load to the axis of the spring. Generally expressed as in-lbs or N-mm. also see Moment

Total Number of Coils - The sum of the number of active and inactive coils in a spring body.