Difference between revisions of "Lattice:Packing fraction"

Latest revision as of 19:23, 11 February 2015

The packing fraction (or particle volume fraction) for a lattice is given by:

\phi ={\frac {NV_{\mathrm {particle} }}{v_{\mathrm {cell} }}}

Where N is the number of particles per unit cell (which has volume $v_{\mathrm {cell} }$ ). For a sphere, the volume is $V=4\pi R^{3}/3$ so:

\phi ={\frac {N4\pi R^{3}}{3v_{\mathrm {cell} }}}

For a cubic unit cell of edge-length a:

\phi ={\frac {N4\pi R^{3}}{3a^{3}}}

For a SC lattice, the packing fraction is 0.524:

Nearest-neighbor distance: $d_{nn}=a$
Assuming spherical particles of radius R:
- Particle volume fraction: $\phi =4\pi R^{3}/\left(3a^{3}\right)$
- Maximum volume fraction: $\phi _{max}=4\pi /24\approx 0.5236$ when $R=a/2$

For a FCC lattice, the packing fraction is 0.740:

Nearest-neighbor distance: $d_{nn}={\sqrt {2}}a/2$
Assuming spherical particles of radius R:
- Particle volume fraction: $\phi =16\pi R^{3}/\left(3a^{3}\right)$
- Maximum volume fraction: $\phi _{max}=\pi {\sqrt {2}}/6\approx 0.740$ when $R=a/(2{\sqrt {2}})$

For a BCC lattice, the packing fraction is 0.680:

Nearest-neighbor distance: $d_{nn}={\sqrt {3}}a/2$
Assuming spherical particles of radius R:
- Particle volume fraction: $\phi =8\pi R^{3}/\left(3a^{3}\right)$
- Maximum volume fraction: $\phi _{max}=\pi {\sqrt {3}}/8\approx 0.680$ when $R=a{\sqrt {3}}/4$

For a diamond lattice, the packing fraction is 0.340:

Nearest-neighbor distance: $d_{nn}={\sqrt {3}}a/4\approx 0.433a$
Assuming spherical particles of radius R:
- Particle volume fraction: $\phi =32\pi R^{3}/\left(3a^{3}\right)$
- Maximum volume fraction: $\phi _{max}=\pi {\sqrt {3}}/16\approx 0.340$ when $R=a{\sqrt {3}}/8$

@@ Line 3: / Line 3: @@
 Where ''N'' is the number of particles per unit cell (which has volume <math>v_{\mathrm{cell}}</math>). For a sphere, the volume is <math>V=4\pi R^3/3</math> so:
 :<math>\phi = \frac{ N 4 \pi R^3 } { 3 v_{\mathrm{cell}} }</math>
-For a [[Lattice:Cubic|cubic]] [[unit cell]] of edge-length ''a'':
+For a cubic [[unit cell]] of edge-length ''a'':
 :<math>\phi = \frac{ N 4 \pi R^3 } { 3 a^3 }</math>
 ===Examples===
+For a [[Lattice:SC#Symmetry|SC lattice]], the packing fraction is 0.524:
+* Nearest-neighbor distance: <math>d_{nn}=a</math>
+* Assuming spherical particles of radius ''R'':
+** Particle volume fraction: <math>\phi=4 \pi R^3/\left(3a^3\right)</math>
+** Maximum volume fraction: <math>\phi_{max}=4\pi/24\approx0.5236</math> when <math>R=a/2</math>
 For a [[Lattice:FCC#Symmetry|FCC lattice]], the packing fraction is 0.740:
 * Nearest-neighbor distance: <math>d_{nn}=\sqrt{2}a/2</math>