Effect of Multiple Springs with Different Spring Constants on Plate Compression

In summary, the conversation discusses the effect of attaching two helical springs with different spring constants to a fixed metal plate and applying a compressive stress on one of the plates. The question is whether both springs will compress equally and how the difference in spring constants will affect the movement of the plate. It is determined that the distribution of force and the presence of the plate can cause the compressions to be unequal and result in torque on the plate, causing it to tilt.
  • #1
blumist
19
0
If i were to attach 2 helical springs (of same uncompressed length but different Spring constants) to metal plates on both ends and then apply a compressive stress on one of the plates, will both the springs compress the same? even though they hold a different tendency for compression?
And also, in what way does the difference in the 2 spring constants affect the movement of the plate?

Assume 1 plate to be fixed.
 
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  • #2
hi blumist! :smile:

depends on where you apply the force …

even with identical springs, if you don't apply the force in the centre, the compressions will be different :wink:
 
  • #3
uh oh... this was one of those times when u assume that the listener ( or reader in this case ) knows what u r thinking... :redface:
I forgot to mention... the force is equally distributed throughout the plate surface... What would happen for this case?
 
  • #4
In that case, the plate will tilt if allowed to tilt. Same compression would result in different amounts of force. That would result in torque on the plate, and if unbalanced, that will cause the plate to tilt.
 
  • #5
yup! :smile:

same as if you stood on two different springs … the presence of the plate makes no difference! :wink:
 

Related to Effect of Multiple Springs with Different Spring Constants on Plate Compression

1. What is Multiple Spring Compression?

Multiple Spring Compression refers to the process of compressing two or more springs together in order to increase the overall force or stiffness. This is commonly used in various mechanical systems, such as vehicle suspensions, to provide a smooth and stable ride.

2. How does Multiple Spring Compression work?

In Multiple Spring Compression, the springs are stacked or placed in series, meaning that the force applied to one spring is transferred to the next one, resulting in a combined force. This allows for a higher overall force to be achieved, as compared to using a single spring.

3. What are the factors that affect Multiple Spring Compression?

The factors that affect Multiple Spring Compression include the number of springs, their individual stiffness or spring constant, and the amount of force applied. The type of material used for the springs can also have an impact on the overall compression.

4. What are the advantages of using Multiple Spring Compression?

One of the main advantages of Multiple Spring Compression is the ability to achieve a greater overall force or stiffness, as compared to using a single spring. This can be beneficial in various applications, such as in shock absorbers or in machinery that requires precise control and stability.

5. Are there any limitations to Multiple Spring Compression?

While Multiple Spring Compression can provide many benefits, there are also some limitations to consider. These include the added complexity and potential for failure due to the use of multiple springs, as well as the possibility of uneven distribution of force if the springs are not of equal stiffness.

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