Physics:Lankford coefficient

The Lankford coefficient (also called Lankford value, R-value, or plastic strain ratio)^[1] is a measure of the plastic anisotropy of a rolled sheet metal. This scalar quantity is used extensively as an indicator of the formability of recrystallized low-carbon steel sheets.^[2]

If ${\displaystyle x}$ and ${\displaystyle y}$ are the coordinate directions in the plane of rolling and ${\displaystyle z}$ is the thickness direction, then the R-value is given by

${\displaystyle R=\frac{{ϵ}_{\mathrm{y}}^p}{{ϵ}_{\mathrm{z}}^p}}$

where ${\displaystyle {ϵ}_{\mathrm{y}}^p}$ is the in-plane plastic strain, transverse to the loading direction, and ${\displaystyle {ϵ}_{\mathrm{z}}^p}$ is the plastic strain through-the-thickness.^[3]

More recent studies have shown that the R-value of a material can depend strongly on the strain even at small strains ^{[citation needed]} . In practice, the ${\displaystyle R}$ value is usually measured at 20% elongation in a tensile test.

For sheet metals, the ${\displaystyle R}$ values are usually determined for three different directions of loading in-plane (${\displaystyle 0^{\circ },45^{\circ },90^{\circ }}$ to the rolling direction) and the normal R-value is taken to be the average

${\displaystyle R=\frac{1}{4}(R_0+2R_{45}+R_{90}).}$

The planar anisotropy coefficient or planar R-value is a measure of the variation of ${\displaystyle R}$ with angle from the rolling direction. This quantity is defined as

${\displaystyle R_p=\frac{1}{2}(R_0-2R_{45}+R_{90}).}$

Generally, the Lankford value of cold rolled steel sheet acting for deep-drawability shows heavy orientation, and such deep-drawability is characterized by ${\displaystyle R}$. However, in the actual press-working, the deep-drawability of steel sheets cannot be determined only by the value of ${\displaystyle R}$ and the measure of planar anisotropy, ${\displaystyle R_p}$ is more appropriate.

In an ordinary cold rolled steel, ${\displaystyle R_{90}}$ is the highest, and ${\displaystyle R_{45}}$ is the lowest. Experience shows that even if ${\displaystyle R_{45}}$ is close to 1, ${\displaystyle R_0}$ and ${\displaystyle R_{90}}$ can be quite high leading to a high average value of ${\displaystyle R}$.^[2] In such cases, any press-forming process design on the basis of ${\displaystyle R_{45}}$ does not lead to an improvement in deep-drawability.

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