Aluminum Debye’s Temperature - |
|
433.0 |
Aluminum latent heat of fusion - |
|
397000 |
Aluminum liquid phase density at the melting point - |
|
2557 |
Aluminum atomic radius – |
pm |
118 |
Iron Debye’s Temperature - |
|
477.0 |
Iron latent heat of fusion - |
|
247400 |
Iron liquid phase density at the melting point - |
|
7030 |
Iron atomic radius – |
pm |
156 |
Zirconium Debye’s Temperature - |
|
290.0 |
Zirconium latent heat of fusion - |
|
196000 |
Zirconium liquid phase density at the melting point - |
|
6324.4 |
Zirconium atomic radius – |
pm |
160 |
Beryllium Debye’s Temperature - |
|
981.0 |
Beryllium latent heat of fusion - |
|
1728000 |
Beryllium liquid phase density at the melting point - |
|
1794.0 |
Beryllium atomic radius – |
pm |
112.0 |
Copper Debye’s Temperature - |
|
347.0 |
Copper latent heat of fusion - |
|
209000 |
Copper liquid phase density at the melting point - |
|
8125.0 |
Copper atomic radius – |
pm |
145.0 |
Nickel Debye’s Temperature2727 George PK, Thompson ED. The Debye temperature of Nickel from 0 to 300K. J Phys Chem Solids. 1967;28(12):2539-44. - |
|
477.0 |
Nickel latent heat of fusion - |
|
298500 |
Nickel liquid phase density at the melting point - |
|
8237.91 |
Nickel atomic radius – |
pm |
149.0 |
Tellurium Debye’s Temperature - |
|
153.0 |
Tellurium atomic radius – |
pm |
138.0 |
Germanium Debye’s Temperature - |
|
371.0 |
Germanium atomic radius – |
pm |
122.0 |
GeTe latent heat of fusion - |
|
236000.0 |
GeTe liquid phase density at the melting point - |
|
6100 |
GeTe fusion Temperature - |
|
998.0 |
Planck constant - |
J.S
|
6.626 x 10-34
|
Boltzmann constant- |
|
1.380658 x 10-23
|
Gas constant - |
|
8.31451 |