Magnetische Kenndaten | magnet-shop.net

Magnetische Kenndaten

Physikalische Kennzahlen und technische Parameter

Neodym-Magnete

Material

Güte

RemanenzKoerzitivfeldstärkeEnergie-
produkt
Maximal-
Temperatur
BrbHciHc(BxH)max
Gauss (G)Tesla (T)kOek/mkOek/mMGOekJ/m³°C
N30 10800-11200 1.08-1.12 9.8-10.5 780-836 ≥ 12 ≥ 955 28-30 223-239 ≤ 80
N33 11400-11700 1.14-1.17 10.3-11.0 820-876 ≥ 12 ≥ 955 31-33 247-263 ≤ 80
N35 11700-12100 1.17-1.21 10.8-11.5 860-915 ≥ 12 ≥ 955 33-35 263-279 ≤ 80
N38 12200-12600 1.22-1.26 10.8-11.5 860-915 ≥ 12 ≥ 955 36-38 287-303 ≤ 80
N40 12600-12900 1.26-1.29 10.5-12.0 860-955 ≥ 12 ≥ 955 38-40 303-318 ≤ 80
N42 12900-13200 1.29-1.32 10.8-12.0 860-955 ≥ 12 ≥ 955 40-42 318-334 ≤ 80
N45 13200-13700 1.32-1.37 10.8-12.5 860-995 ≥ 12 ≥ 955 43-45 342-358 ≤ 80
N48 13700-14200 1.37-1.42 10.8-12.5 860-995 ≥ 12 ≥ 955 45-48 358-382 ≤ 80
N50 14000-14600 1.40-1.46 10.8-12.5 860-995 ≥ 12 ≥ 955 47-51 374-406 ≤ 80
N52 14200-14700 1.42-1.47 10.8-12.5 860-995 ≥ 12 ≥ 955 48-53 380-422 ≤ 80
N30M 10800-11200 1.08-1.12 9.8-10.5 780-836 ≥ 14 ≥ 1114 28-30 223-239 ≤ 100
N33M 11400-11700 1.14-1.17 10.3-11.0 820-876 ≥ 14 ≥ 1114 31-33 247-263 ≤ 100
N35M 11700-12100 1.17-1.21 10.8-11.5 860-915 ≥ 14 ≥ 1114 33-35 263-279 ≤ 100
N38M 12200-12600 1.22-1.26 10.8-11.5 860-915 ≥ 14 ≥ 1114 36-38 287-303 ≤ 100
N40M 12600-12900 1.26-1.29 10.8-12.0 860-955 ≥ 14 ≥ 1114 38-40 303-318 ≤ 100
N42M 12900-13200 1.29-1.32 10.8-12.5 860-995 ≥ 14 ≥ 1114 40-42 318-334 ≤ 100
N45M 13200-13700 1.32-1.37 10.8-13.0 860-1035 ≥ 14 ≥ 1114 43-45 342-358 ≤ 100
N48M 13700-14200 1.37-1.42 10.8-12.5 860-995 ≥ 14 ≥ 1114 45-48 358-382 ≤ 100
N50M 14000-14600 1.40-1.46 10.8-12.5 860-995 ≥ 14 ≥ 1114 47-51 374-406 ≤ 100
N27H 10200-10600 1.02-1.06 9.5-10.1 756-804 ≥ 17 ≥ 1353 25-27 199-215 ≤ 120
N30H 10800-11200 1.08-1.12 10.1-10.6 804-844 ≥ 17 ≥ 1353 28-30 223-239 ≤ 120
N33H 11400-11700 1.14-1.17 10.3-11.0 820-876 ≥ 17 ≥ 1353 31-33 247-263 ≤ 120
N35H 11700-12100 1.17-1.21 10.8-11.5 860-915 ≥ 17 ≥ 1353 33-35 263-279 ≤ 120
N38H 12200-12600 1.22-1.26 10.8-11.5 860-915 ≥ 17 ≥ 1353 36-38 287-303 ≤ 120
N40H 12600-12900 1.26-1.29 10.8-12.0 860-955 ≥ 17 ≥ 1353 38-40 303-318 ≤ 120
N42H 12900-13200 1.29-1.32 10.8-12.0 860-955 ≥ 17 ≥ 1353 40-42 318-334 ≤ 120
N44H 13200-13600 1.32-1.36 10.8-13.0 860-1035 ≥ 17 ≥ 1353 42-44 334-350 ≤ 120
N45H 13200-13800 1.32-1.38 10.8-12.2 860-963 ≥ 17 ≥ 1353 43-46 342-366 ≤ 120
N48H 13700-14200 1.37-1.42 10.8-12.5 860-995 ≥ 17 ≥ 1353 45-48 358-382 ≤ 120
N27SH 10200-10600 1.02-1.06 9.5-10.1 756-804 ≥ 20 ≥ 1592 25-27 199-215 ≤ 150
N30SH 10800-11200 1.08-1.12 10.1-10.6 804-844 ≥ 20 ≥ 1592 28-30 223-239 ≤ 150
N33SH 11400-11700 1.14-1.17 10.3-11.0 820-876 ≥ 20 ≥ 1592 31-33 247-263 ≤ 150
N35SH 11700-12100 1.17-1.21 10.8-11.5 860-915 ≥ 20 ≥ 1592 33-35 263-279 ≤ 150
N38SH 12200-12600 1.22-1.26 10.8-11.5 860-915 ≥ 20 ≥ 1592 36-38 287-303 ≤ 150
N40SH 12600-12900 1.26-1.29 10.8-12.0 860-955 ≥ 20 ≥ 1592 38-40 303-318 ≤ 150
N42SH 12900-13200 1.29-1.32 10.8-12.0 860-955 ≥ 20 ≥ 1592 40-42 318-334 ≤ 150
N45SH 13200-13700 1.32-1.37 10.8-12.5 860-955 ≥ 20 ≥ 1592 43-45 342-358 ≤ 150
N25UH 9800-10200 0.98-1.02 9.2-9.6 732-764 ≥ 25 ≥ 1990 23-25 183-199 ≤ 180
N28UH 10400-10800 1.04-1.08 9.8-10.2 780-812 ≥ 25 ≥ 1990 26-28 207-233 ≤ 180
N30UH 10800-11200 1.08-1.12 10.1-10.6 804-844 ≥ 25 ≥ 1990 28-30 223-239 ≤ 180
N33UH 11400-11700 1.14-1.17 10.3-11.0 820-876 ≥ 25 ≥ 1990 31-33 247-263 ≤ 180
N35UH 11700-12100 1.17-1.21 10.8-11.5 860-915 ≥ 25 ≥ 1990 33-35 263-279 ≤ 180
N38UH 12200-12600 1.22-1.26 10.8-11.5 860-915 ≥ 25 ≥ 1990 36-38 287-303 ≤ 180
N40UH 12600-12900 1.26-1.29 10.5-12.0 860-955 ≥ 25 ≥ 1990 38-40 303-318 ≤ 180
N25EH 9800-10200 0.98-1.02 9.2-9.6 732-764 ≥ 30 ≥ 2388 23-25 183-199 ≤ 200
N28EH 10400-10800 1.04-1.08 9.8-10.2 780-812 ≥ 30 ≥ 2388 26-28 207-223 ≤ 200
N30EH 10800-11200 1.08-1.12 10.1-10.6 804-844 ≥ 30 ≥ 2388 28-30 223-239 ≤ 200
N33EH 11400-11700 1.14-1.17 10.3-11.0 820-876 ≥ 30 ≥ 2388 31-33 247-263 ≤ 200
N35EH 11700-12100 1.17-1.21 10.8-11.5 860-915 ≥ 30 ≥ 2388 33-35 263-279 ≤ 200

Ferrit-Magnete

Als Magnetisierungsgrad von Ferritmagneten geben wir in unserem Shop die chinesische Norm, wie z.B. Y30 oder Y35, an. Die entsprechende Einstufung der ameriknischen Klassen (C8, C11) finden Sie in folgender Tabelle:

MaterialRemanenzKoerzitivfeldstärkeEnergie-
produkt
Maximal-
Temperatur
BrbHciHc(BxH)mx
Gauss (G)Tesla (T)kOek/mkOek/MMGOekJ/m³°C
C10 ≥ 4000 ≥ 0.40 ≥ 3.6 ≥ 288 ≥ 3.5 ≥ 280 ≥ 3.8 ≥ 30.4 ≤ 250
C8 (=C =C8A) ≥ 3800 ≥ 0.38 ≥ 2.9 ≥ 235 ≥ 3.0 ≥ 242 ≥ 3.5 ≥ 27.8 ≤ 250
Y10T (=C1) ≥ 2000 ≥ 0.20 ≥ 1.6 ≥ 125 ≥ 2.6 ≥ 210 ≥ 0.8 ≥ 6.5 ≤ 250
Y25 ≥ 3600 ≥ 0.36 ≥ 1.7 ≥ 135 ≥ 1.7 ≥ 140 ≥ 2.8 ≥ 22.5 ≤ 250
Y30 ≥ 3900 ≥ 0.39 ≥ 2.3 ≥ 184 ≥ 2.3 ≥ 188 ≥ 3.4 ≥ 27.6 ≤ 250
Y33 ≥ 4100 ≥ 0.41 ≥ 2.8 ≥ 220 ≥ 2.8 ≥ 225 ≥ 4.0 ≥ 31.5 ≤ 250
Y35 ≥ 4100 ≥ 0.41 ≥ 2.6 ≥ 208 ≥ 2.7 ≥ 212 ≥ 3.8 ≥ 30.4 ≤ 250

Eigenschften von Hart-Ferritmagneten nach DIN IEC 60404-1-1:

MaterialRemanenzKoerzitivfeldstärkeEnergie-
produkt
Maximal-
Temperatur
BrHCBiHc(BxH)max
Tesla (T)
typ.
Tesla (T)
min.
k/m
typ.
k/m
min.
kOek/MkJ/m³
min.
kJ/m³
typ.
°C
HF 8/22 (B) = Y10T 0.220 0.215 140 135 230 220 8,0 8,5 ≤ 250
HF 24/16 (B) 0.365 0.350 175 155 180 160 24,0 25,5 ≤ 250
HF 8/26 (Sr) 0.220 0.215 140 135 270 260 8,5 8,0 ≤ 250
HF 24/23 (Sr) = Y26H 0.365 0.350 220 210 240 230 24,0 25,5 ≤ 250
HF 26/22 0.370 0.390 210 220 220 230 25,5 29,0 ≤ 250
HF 26/24 (Sr) = Y28H 0.380 0.370 230 220 250 240 26,0 27,0 ≤ 250
HF 28/26 (Sr) 0.395 0.385 265 240 275 260  28,0 30,0 ≤ 250
HF 28/28 (Sr) = Y30BH 0.395 0.385 270 260 290 280 28,0 30,0 ≤ 250
HF-30/26 (Sr) = Y30H-2 0.405 0.395 250 240 270 260 30,0 31,5 ≤ 250

Samarium-Cobalt-Magnete

MaterialMaterial-
Grad
RemanenzKoerzitivfeldstärkeEnergie-
produkt
Maximal-
Temperatur
 BrbHciHc(BxH)max
 Gauss (G)Tesla (T)kOek/mkOek/mMGOekJ/m³°C
SmCo5 RCS20 8500-9000 0.850-0.900 7.5-8.0 597-639 ≥ 15 ≥ 1199 19-21 151-167 ≤ 250
Sm2Co17 S280 10000-11300 0.100-0.113 8.5-9.5 676-756 ≥ 15 ≥ 1194 24-28 191-223 ≤ 350
Sm2Co17 RCS26H 10000-10500 0.100-0.105 8.2-10.0 655-799 ≥ 18 ≥ 1440 24-26 191-210 ≤ 350

Neodym-Magnetbänder und Folien

Material

Güte

RemanenzKoerzitivfeldstärkeEnergie-
produkt
Maximal-
Temperatur
Oberfläche 

Haft-
kraft

BrbHciHc(BxH)max
Gauss (G)Tesla (T)kOek/mkOek/mMGOekJ/m³°C Gussg/cm²
R6 4800-5800 0.480-0.580 3.7-4.7 290-380 8.0-10.0 630-800 5.5-6.5 44-52 ≤ 120 1554 415