To answer the issue of:
Does that mean the wire material doesn't have as much importance (copper, silver, aluminum ..etc) ?
The velocity of propagation of electromagnetic radiation in any medium is given by
\$ v = \frac {1} { \sqrt {\varepsilon _0 \varepsilon _r \mu _0 \mu _r}}\$
Where:
\$ \varepsilon _0\$ = permittivity of free space = 8.854 pF/metre
\$ \varepsilon _r\$ = relative permittivity of the medium (the dielectric)
\$ \mu _0\$ = permeability of free space = 4\$ \pi\$ \$ \cdot 10^{-7}\$ Henries / metre
\$ \mu _r\$ the relative permeability of the medium (the conductor).
As the relative permeability and permittivity for free space are 1, then the velocity of electromagnetic propagation in free space is:
\$ c = \frac {1} { \sqrt {\varepsilon _0 \mu _0 }}\$
Many metallic conductors have a relative permeability of close to unity and therefore \$ \mu _0 \mu _r \$ reduces to \$ \mu _0 \$; i.e. the permeability of the conductor is of no consequence to the signal velocity. Copper, for instance has \$ \mu _r\$ = 0.999994 (6ppm different from free space and therefore inconsequential in most cases).
If you are using a ferromagnetic conductor that has a high relative permeability, such as Nickel then it does have a significant impact on signal propagation velocity.
