1H2He3Li4Be5B6C7N8O9F10Ne11Na12Mg13Al14Si15P16S17Cl18Ar19K20Ca21Sc22Ti23V24Cr25Mn26Fe27Co28Ni29Cu30Zn31Ga32Ge33As34Se35Br36Kr37Rb38Sr39Y40Zr41Nb42Mo43Tc44Ru45Rh46Pd47Ag48Cd49In50Sn51Sb52Te53I54Xe55Cs56BaLa*Lanthanoide57La58Ce59Pr60Nd61Pm62Sm63Eu64Gd65Tb66Dy67Ho68Er69Tm70Yb71Lu72Hf73Ta74W75Re76Os77Ir78Pt79Au80Hg81Tl82Pb83Bi84Po85At86Rn87Fr88RaAc*Actinoide89Ac90Th91Pa92U93Np94Pu95Am96Cm97Bk98Cf99Es100Fm101Md102No103Lr104Rf105Db106Sg107Bh108Hs109Mt110Ds111Rg112Cn113Nh114Fl115Mc116Lv117Ts118Og
Vickershärte
Die Vickers-Härteprüfung wird zur Prüfung homogener Werkstoffe, dünnwandiger oder oberflächengehärteter Werkstücke und Randzonen eingesetzt. Die Prüfung erfolgt durch das Eindrücken einer gleichseitige Diamantpyramide in das Werkstück.
Element | Vickershärte | ||
---|---|---|---|
4Be | Beryllium | 1.670 NM·m-2 | |
5B | Bor | 4.900 NM·m-2 | |
13Al | Aluminium | 167 NM·m-2 | |
22Ti | Titan | 970 NM·m-2 | |
23V | Vanadium | 628 NM·m-2 | |
24Cr | Chrom | 1.060 NM·m-2 | |
26Fe | Eisen | 608 NM·m-2 | |
27Co | Cobalt | 1.043 NM·m-2 | |
28Ni | Nickel | 638 NM·m-2 | |
29Cu | Kupfer | 369 NM·m-2 | |
40Zr | Zirconium | 903 NM·m-2 | |
41Nb | Niob | 1.320 NM·m-2 | |
42Mo | Molybdän | 1.530 NM·m-2 | |
45Rh | Rhodium | 1.246 NM·m-2 | |
46Pd | Palladium | 461 NM·m-2 | |
47Ag | Silber | 251 NM·m-2 | |
57La | Lanthan | 491 NM·m-2 | |
58Ce | Cer | 270 NM·m-2 | |
59Pr | Praseodym | 400 NM·m-2 | |
60Nd | Neodym | 343 NM·m-2 | |
62Sm | Samarium | 412 NM·m-2 | |
63Eu | Europium | 167 NM·m-2 | |
64Gd | Gadolinium | 570 NM·m-2 | |
65Tb | Terbium | 863 NM·m-2 | |
66Dy | Dysprosium | 540 NM·m-2 | |
67Ho | Holmium | 481 NM·m-2 | |
68Er | Erbium | 589 NM·m-2 | |
69Tm | Thulium | 520 NM·m-2 | |
70Yb | Ytterbium | 206 NM·m-2 | |
71Lu | Lutetium | 1.160 NM·m-2 | |
72Hf | Hafnium | 1.760 NM·m-2 | |
73Ta | Tantal | 873 NM·m-2 | |
74W | Wolfram | 3.430 NM·m-2 | |
75Re | Rhenium | 2.450 NM·m-2 | |
77Ir | Iridium | 1.760 NM·m-2 | |
78Pt | Platin | 549 NM·m-2 | |
79Au | Gold | 216 NM·m-2 | |
90Th | Thorium | 350 NM·m-2 | |
92U | Uran | 1.960 NM·m-2 |