CRNMC
99,98–99,999 %
Vakuumschmelzen
Ningbo Chuangrun-Basis
Durchmesser (50-400) mm
Holzpalette
100 kg
Halbleiter
Verfügbarkeitsstatus: | |
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Menge: | |
Übersicht über hochreines Nickel: 5N hochreines Nickel, Reinheit 99,999 %. Als hochwertiges Metallmaterialprodukt aus Nickelmetall wird es häufig in den Bereichen Energie, Luftfahrt, Werkstoffe, Speziallegierungen, Pulverlegierungen, chemische Industrie, Militärindustrie, Kommunikation, Automobil und anderen Spezialgebieten eingesetzt Branchen.
Produkte | Grad | Ni(%min) | Cu | Si | Mn | Mg | S | P | Fe | Pb | Bi | Als | Sb | Zn | CD | Sn | C | O |
Nationaler Standard N2 | 3N8 | 99.98 | 10 | 30 | 20 | 30 | 10 | 10 | 70 | 3 | 3 | 10 | 3 | 20 | 3 | 1 | 50 | - |
4N5 Nickel | 4N5 | 99.995 | 4 | 1 | 1 | 1 | 5 | 1 | 10 | 1.5 | 1 | 1 | 3 | 1.5 | 1 | 1 | 30 | 30 |
5N Nickel | 5N | 99.999 | 2 | 1 | 1 | 1 | 1 | 1 | 2 | 1 | 1 | 1 | 1 | 1 | 1 | 1 | 5 | 20 |
Artikel | Spez. | Einheit | Analyse Methode | |
Ni | ≥99,998 | Gew.-% | — | |
Verunreinigungen | Als | ≤1,0 | wtppm | GDMS |
Au | ≤1,0 | wtppm | GDMS | |
Ag | ≤1,0 | wtppm | GDMS | |
KI | ≤2,0 | wtppm | GDMS | |
Bi | ≤1,0 | wtppm | GDMS | |
Ca | ≤1,0 | wtppm | GDMS | |
CD | ≤1,0 | wtppm | GDMS | |
Cr | ≤3,0 | wtppm | GDMS | |
Cu | ≤4,0 | wtppm | GDMS | |
Fe | ≤10,0 | wtppm | GDMS | |
Mg | ≤1,0 | wtppm | GDMS | |
Pb | ≤1,5 | wtppm | GDMS | |
Co | ≤3,0 | wtppm | GDMS | |
P | ≤1,0 | wtppm | GDMS | |
Si | ≤1,0 | wtppm | GDMS | |
Mn | ≤1,0 | wtppm | GDMS | |
V | ≤1,0 | wtppm | GDMS | |
Ti | ≤3,0 | wtppm | GDMS | |
S | ≤5,0 | wtppm | GDMS | |
Sn | ≤1,0 | wtppm | GDMS | |
Sb | ≤3,0 | wtppm | GDMS | |
Zn | ≤1,5 | wtppm | GDMS | |
Zr | ≤1,0 | wtppm | GDMS | |
N / A | ≤1,0 | wtppm | GDMS | |
Li | ≤1,0 | wtppm | GDMS | |
K | ≤1,0 | wtppm | GDMS | |
Gesamt | ≤20,0 | wtppm | GDMS | |
Gaselement | C | ≤30 | wtppm | LECO |
N | ≤10 | wtppm | LECO | |
O | ≤30 | wtppm | LECO | |
H | ≤5 | wtppm | LECO |
Übersicht über hochreines Nickel: 5N hochreines Nickel, Reinheit 99,999 %. Als hochwertiges Metallmaterialprodukt aus Nickelmetall wird es häufig in den Bereichen Energie, Luftfahrt, Werkstoffe, Speziallegierungen, Pulverlegierungen, chemische Industrie, Militärindustrie, Kommunikation, Automobil und anderen Spezialgebieten eingesetzt Branchen.
Produkte | Grad | Ni(%min) | Cu | Si | Mn | Mg | S | P | Fe | Pb | Bi | Als | Sb | Zn | CD | Sn | C | O |
Nationaler Standard N2 | 3N8 | 99.98 | 10 | 30 | 20 | 30 | 10 | 10 | 70 | 3 | 3 | 10 | 3 | 20 | 3 | 1 | 50 | - |
4N5 Nickel | 4N5 | 99.995 | 4 | 1 | 1 | 1 | 5 | 1 | 10 | 1.5 | 1 | 1 | 3 | 1.5 | 1 | 1 | 30 | 30 |
5N Nickel | 5N | 99.999 | 2 | 1 | 1 | 1 | 1 | 1 | 2 | 1 | 1 | 1 | 1 | 1 | 1 | 1 | 5 | 20 |
Artikel | Spez. | Einheit | Analyse Methode | |
Ni | ≥99,998 | Gew.-% | — | |
Verunreinigungen | Als | ≤1,0 | wtppm | GDMS |
Au | ≤1,0 | wtppm | GDMS | |
Ag | ≤1,0 | wtppm | GDMS | |
KI | ≤2,0 | wtppm | GDMS | |
Bi | ≤1,0 | wtppm | GDMS | |
Ca | ≤1,0 | wtppm | GDMS | |
CD | ≤1,0 | wtppm | GDMS | |
Cr | ≤3,0 | wtppm | GDMS | |
Cu | ≤4,0 | wtppm | GDMS | |
Fe | ≤10,0 | wtppm | GDMS | |
Mg | ≤1,0 | wtppm | GDMS | |
Pb | ≤1,5 | wtppm | GDMS | |
Co | ≤3,0 | wtppm | GDMS | |
P | ≤1,0 | wtppm | GDMS | |
Si | ≤1,0 | wtppm | GDMS | |
Mn | ≤1,0 | wtppm | GDMS | |
V | ≤1,0 | wtppm | GDMS | |
Ti | ≤3,0 | wtppm | GDMS | |
S | ≤5,0 | wtppm | GDMS | |
Sn | ≤1,0 | wtppm | GDMS | |
Sb | ≤3,0 | wtppm | GDMS | |
Zn | ≤1,5 | wtppm | GDMS | |
Zr | ≤1,0 | wtppm | GDMS | |
N / A | ≤1,0 | wtppm | GDMS | |
Li | ≤1,0 | wtppm | GDMS | |
K | ≤1,0 | wtppm | GDMS | |
Gesamt | ≤20,0 | wtppm | GDMS | |
Gaselement | C | ≤30 | wtppm | LECO |
N | ≤10 | wtppm | LECO | |
O | ≤30 | wtppm | LECO | |
H | ≤5 | wtppm | LECO |
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