Spring constant
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The spring constant , and spring stiffness , spring stiffness , spring rate , a benchmark or Directorate constant called, is the ratio of a spring acting force to thereby caused deflection of the spring. In contrast to stiffness in the usual sense, spring stiffness does not refer to the elongation of the spring (extension in relation to length). Deflection means the absolute elongation of the spring or its rotation .
Only with linear springs is the force proportional to the deflection and then only until the elastic limit is reached .
The term spring “constant” is unfortunate because it is not a material constant or a physical constant . It only ever applies to one particular spring.
definition
According to Hooke's law , the spring force of a spring is proportional to the deflection . The proportionality factor is called the spring constant. So the relationship applies
Instead of the letter , or is used for the spring constant.
calculation
The spring constant depends on the material and shape of the spring as well as on the direction of loading. So it is z. B. for a rod of length with cross-sectional area with a tensile or compressive force in the longitudinal direction of the rod:
It describes the modulus of elasticity , which is a material property. is the tensile stiffness in this case .
The spring constant of a coil spring is:
With
- Wire diameter
- mean spring diameter
- resilient coils
- Shear modulus (for spring steel wire generally G = 81500 N / mm², according to DIN EN 13906-1: 2002)
Measurement
A direct determination of the spring constant is obtained through a tensile test in which a force is applied and the deflection or change in length in the direction of the applied force is measured. This gives the spring constant to
The spring constant of a tension spring or compression spring is usually given in the unit Newton / meter :
The description of a spring by its spring constant is a useful and usually sufficiently accurate approximation. The force-distance curve of neighboring atoms , on which the elastic behavior of solid substances is based, is almost linear in the area of elastic deformation and can therefore be described by Hooke's law.
The spring constant can be determined indirectly by measuring the period of a spring pendulum .
Springs with non-linear spring stiffness
The spring constant of ordinary metal springs remains the same over a wide range. This means that the force required for the deflection is proportional to the deflection.
With air springs, on the other hand, the force increases disproportionately (exponentially) with the deflection. The spring constant also increases with the deflection, since air springs have a so-called progressive characteristic .
With a special design - for example by changing the coil diameter or angle - it is also possible to produce steel springs whose force-displacement relationship is not linear: First, the soft area compresses, and when its coils are in contact, the harder area takes effect.
Springs in vehicles should stiffen towards the end of the spring travel in order to prevent the wheel suspension from breaking through on the body . This is often achieved by additional molded rubber bodies, which allow the wheel suspension to hit softly. Another variant consists of air springs connected in parallel.
In the case of telescopic forks on motorcycles, the limited air volume acts as a stop damper, which can also be adjusted to the spring or vehicle weight by adjusting the oil level.
In the case of metal springs that exert a torque (e.g. spiral springs in mechanical watches, moving coil measuring mechanisms and spring mechanisms , but also torsion bar springs and tensioning straps in measuring mechanisms and torsion pendulums ), there is also an almost linear relationship between angular deflection and torque. Your spring constant is given in Newton meters per degree of angle. In spring systems, the aim is to have a particularly flat curve for the torque characteristic, which in the case of spiral springs z. B. is achieved by a from the inside to the outside decreasing cross-section of the tape or by a reversing winding direction in the elevator.
Combination of springs
two coil springs in parallel
several disc springs connected in series
When putting several springs together, you can specify a spring constant for the entire circuit , the so-called equivalent spring constant .
In parallel connection of springs with spring constants spring combination has a larger spring constant (ie is harder) as the hardest single spring. The substitute spring constant is calculated as the sum of the individual constants
When connected in series (e.g. connecting several springs together), the spring combination has a smaller spring constant (i.e. it is softer) than the softest individual spring. The substitute spring constant results from
For example, two identical springs attached to one another have half the spring constant. And two identical springs coupled next to each other have twice the spring constant.
Individual evidence
- ↑ Dieter Meschede (Ed.): Physics . 22nd edition. Springer, 2004, ISBN 3-540-02622-3 , pp. 181 ( limited preview in Google Book search).
- ↑ David Halliday, Robert Resnick, Jearl Walker: Physik . Wiley-VCH, 2001, ISBN 978-3-527-40746-0 , pp. 356 ( limited preview in Google Book Search).
- ↑ Bruno Assmann, Peter Selke: Technical Mechanics . 13th edition. Oldenbourg, 2004, ISBN 3-486-27294-2 , pp. 369 ( limited preview in Google Book search).
- ↑ Chapter springs on the website Hochschule-Technik.de