Characteristic length

In physics, a characteristic length is an important dimension that defines the scale of a physical system. Often, such a length is used as an input to a formula in order to predict some characteristics of the system, and it is usually required by the construction of a dimensionless quantity, in the general framework of dimensional analysis and in particular applications such as fluid mechanics.

In computational mechanics, a characteristic length is defined to force localization of a stress softening constitutive equation. The length is associated with an integration point. For 2D analysis, it is calculated by taking the square root of the area. For 3D analysis, it is calculated by taking the cubic root of the volume associated to the integration point.[1]

Examples

A characteristic length is usually the volume of a system divided by its surface[2]:

$L_{c}=V_{body}/A_{surface}$

For example, in calculating flow through circular and non-circular tubes, in order to examine flow conditions (i.e. the Reynolds number). In those cases, the characteristic length is the diameter of the pipe, or in case of non-circular tubes its hydraulic diameter $D_{h}$ :

$D_{h}=4A_{c}/p$

Where $A_{c}$ is the cross-sectional area of the pipe and $p$ is its wetted perimeter. It is defined such that it reduces to a circular diameter of D for circular pipes.

For flow through a square duct with a side length of a, the hydraulic diameter $D_{h}$ is:

$D_{h}=4a^{2}/4a=a$

For a rectangular duct with side lengths a and b:

$D_{h}={\frac {4ab}{2(a+b)}}={\frac {2ab}{a+b}}$

For free surfaces (such as in open-channel flow), the wetted perimeter includes only the walls in contact with the fluid.[3]

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References

J. Oliver, M. Cervera, S. Oller, Isotropic damage models and smeared crack analysis of concrete. Proceedings of SCI-C 1990 (1990) 945–958.
"Characteristic Length - calculator". fxSolver. Retrieved 2018-07-08.
Çengel, Yunus A.; Cimbala, John M. (2014). Fluid mechanics : fundamentals and applications (3rd ed.). New York: McGraw Hill. ISBN 9780073380322. OCLC 880405759.

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[1] J. Oliver, M. Cervera, S. Oller, Isotropic damage models and smeared crack analysis of concrete. Proceedings of SCI-C 1990 (1990) 945–958.

[2] "Characteristic Length - calculator". fxSolver. Retrieved 2018-07-08.

[3] Çengel, Yunus A.; Cimbala, John M. (2014). Fluid mechanics : fundamentals and applications (3rd ed.). New York: McGraw Hill. ISBN 9780073380322. OCLC 880405759.