Lamé constant | Energy Glossary

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Lamé constant

1. n. []

One of two elastic constants named for French mathematician Gabriel Lamé (1795 to 1870). The first Lamé constant is λ, the bulk modulus (K) less two-thirds of the shear modulus (μ):

λ = K − (2/3)μ

The second Lamé constant is the shear modulus (μ):

μ = τ / γ = (ΔF/A) / (ΔL/L),

where
μ = Shear modulus
τ = Shear stress = ΔF/A
ΔF = Increment of shear force
A = Area acted on by the shear force
γ = Shear strain = ΔL/L
ΔL = Increment of transverse displacement parallel to A
L = Original length.

Lamé constants derived from elastic-wave velocities:

λ = ρ(VP2 − 2VS2)

μ = ρVS2

λ/μ = (VP/VS)2 − 2,

where
λ = Lamé's first constant
μ = Lamé's second constant, the shear modulus
VP = Compressional-wave (P-wave) velocity
VS = Shear-wave (S-wave) velocity
ρ = Density.

See related terms: bulk moduluselastic constantsshear modulusP-waveS-wave