Sinter NdFeB Magnéit
| Sinter NdFeB Magnéit Kierperlech Eegeschafte | ||||||||
| Grad | Remanenz | Rev Temp.- Coeff. vum Br | Zwangskräfte | Intrinsesch Zwangskraft | Rev Temp.- Coeff. vum Hcj | Max. Energie Produkt | Max. Operatioun Temperatur | Dicht |
| Br (KG) | Hcb (DIR) | Hcj (DIR) | (BH) max. (MGOe) | g/cm³ | ||||
| N35 | 11.7-12.2 | -0.11~-0.12 | ≥10,9 | ≥12 | -0.58~-0.78 | 33-36 | 80 ℃ | 7.6 |
| N38 | 12.2-12.5 | -0.11~-0.12 | ≥11.3 | ≥12 | -0.58~-0.78 | 36-39 | 80 ℃ | 7.6 |
| N40 | 12.5-12.8 | -0.11~-0.12 | ≥11,5 | ≥12 | -0.58~-0.78 | 38-41 | 80 ℃ | 7.6 |
| N42 | 12.8-13.2 | -0.11~-0.12 | ≥11,5 | ≥12 | -0.58~-0.78 | 40-43 | 80 ℃ | 7.6 |
| N45 | 13.2-13.8 | -0.11~-0.12 | ≥11,6 | ≥12 | -0.58~-0.78 | 43-46 | 80 ℃ | 7.6 |
| N48 | 13.8-14.2 | -0.11~-0.12 | ≥11,6 | ≥12 | -0.58~-0.78 | 46-49 | 80 ℃ | 7.6 |
| N50 | 14.0-14.5 | -0.11~-0.12 | ≥10,0 | ≥12 | -0.58~-0.78 | 48-51 | 80 ℃ | 7.6 |
| N52 | 14.3-14.8 | -0.11~-0.12 | ≥10,0 | ≥12 | -0.58~-0.78 | 50-53 | 80 ℃ | 7.6 |
| N33M | 11.3-11.7 | -0.11~-0.12 | ≥10,5 | ≥14 | -0.58~-0.72 | 31-33 | 100 ℃ | 7.6 |
| N35M | 11.7-12.2 | -0.11~-0.12 | ≥10,9 | ≥14 | -0.58~-0.72 | 33-36 | 100 ℃ | 7.6 |
| N38M | 12.2-12.5 | -0.11~-0.12 | ≥11.3 | ≥14 | -0.58~-0.72 | 36-39 | 100 ℃ | 7.6 |
| N40M | 12.5-12.8 | -0.11~-0.12 | ≥11,6 | ≥14 | -0.58~-0.72 | 38-41 | 100 ℃ | 7.6 |
| N42M | 12.8-13.2 | -0.11~-0.12 | ≥12,0 | ≥14 | -0.58~-0.72 | 40-43 | 100 ℃ | 7.6 |
| N45M | 13.2-13.8 | -0.11~-0.12 | ≥12,5 | ≥14 | -0.58~-0.72 | 43-46 | 100 ℃ | 7.6 |
| N48M | 13.6-14.3 | -0.11~-0.12 | ≥12,9 | ≥14 | -0.58~-0.72 | 46-49 | 100 ℃ | 7.6 |
| N50M | 14.0-14.5 | -0.11~-0.12 | ≥13,0 | ≥14 | -0.58~-0.72 | 48-51 | 100 ℃ | 7.6 |
| N35H | 11.7-12.2 | -0.11~-0.12 | ≥10,9 | ≥17 | -0.58~-0.70 | 33-36 | 120 ℃ | 7.6 |
| N38H | 12.2-12.5 | -0.11~-0.12 | ≥11.3 | ≥17 | -0.58~-0.70 | 36-39 | 120 ℃ | 7.6 |
| N40H | 12.5-12.8 | -0.11~-0.12 | ≥11,6 | ≥17 | -0.58~-0.70 | 38-41 | 120 ℃ | 7.6 |
| N42H | 12.8-13.2 | -0.11~-0.12 | ≥12,0 | ≥17 | -0.58~-0.70 | 40-43 | 120 ℃ | 7.6 |
| N45H | 13.2-13.6 | -0.11~-0.12 | ≥12.1 | ≥17 | -0.58~-0.70 | 43-46 | 120 ℃ | 7.6 |
| N48H | 13.7-14.3 | -0.11~-0.12 | ≥12,5 | ≥17 | -0.58~-0.70 | 46-49 | 120 ℃ | 7.6 |
| N35SH | 11.7-12.2 | -0.11~-0.12 | ≥11,0 | ≥20 | -0.56~-0.70 | 33-36 | 150 ℃ | 7.6 |
| N38SH | 12.2-12.5 | -0.11~-0.12 | ≥11,4 | ≥20 | -0.56~-0.70 | 36-39 | 150 ℃ | 7.6 |
| N40SH | 12.5-12.8 | -0.11~-0.12 | ≥11.8 | ≥20 | -0.56~-0.70 | 38-41 | 150 ℃ | 7.6 |
| N42SH | 12.8-13.2 | -0.11~-0.12 | ≥12,4 | ≥20 | -0.56~-0.70 | 40-43 | 150 ℃ | 7.6 |
| N45SH | 13.2-13.8 | -0.11~-0.12 | ≥12,6 | ≥20 | -0.56~-0.70 | 43-46 | 150 ℃ | 7.6 |
| N28UH | 10.2-10.8 | -0.11~-0.12 | ≥9,6 | ≥25 | -0.52~-0.70 | 26-29 | 180 ℃ | 7.6 |
| N30UH | 10.8-11.3 | -0.11~-0.12 | ≥10.2 | ≥25 | -0.52~-0.70 | 28-31 | 180 ℃ | 7.6 |
| N33UH | 11.3-11.7 | -0.11~-0.12 | ≥10,7 | ≥25 | -0.52~-0.70 | 31-34 | 180 ℃ | 7.6 |
| N35UH | 11.8-12.2 | -0.11~-0.12 | ≥10,8 | ≥25 | -0.52~-0.70 | 33-36 | 180 ℃ | 7.6 |
| N38UH | 12.2-12.5 | -0.11~-0.12 | ≥11,0 | ≥25 | -0.52~-0.70 | 36-39 | 180 ℃ | 7.6 |
| N40UH | 12.5-12.8 | -0.11~-0.12 | ≥11.3 | ≥25 | -0.52~-0.70 | 38-41 | 180 ℃ | 7.6 |
| N28EH | 10.4-10.9 | -0.105~-0.120 | ≥9,8 | ≥30 | -0.48~-0.70 | 26-29 | 200 ℃ | 7.6 |
| N30EH | 10.8-11.3 | -0.105~-0.120 | ≥10.2 | ≥30 | -0.48~-0.70 | 28-31 | 200 ℃ | 7.6 |
| N33EH | 11.3-11.7 | -0.105~-0.120 | ≥10,5 | ≥30 | -0.48~-0.70 | 31-34 | 200 ℃ | 7.6 |
| N35EH | 11.7-12.2 | -0.105~-0.120 | ≥11,0 | ≥30 | -0.48~-0.70 | 33-36 | 200 ℃ | 7.6 |
| N38EH | 12.2-12.5 | -0.105~-0.120 | ≥11.3 | ≥30 | -0.48~-0.70 | 36-39 | 200 ℃ | 7.6 |
| N28AH | 10.4-10.9 | -0.105~-0.120 | ≥9,9 | ≥33 | -0.45~-0.70 | 26-29 | 230 ℃ | 7.6 |
| N30AH | 10.8-11.3 | -0.105~-0.120 | ≥10,3 | ≥33 | -0.45~-0.70 | 28-31 | 230 ℃ | 7.6 |
| N33AH | 11.3-11.7 | -0.105~-0.120 | ≥10,6 | ≥33 | -0.45~-0.70 | 31-34 | 230 ℃ | 7.6 |
| Notiz: · Ënner schaffen Temperatur 20 ℃ ± 2 ℃, iwwer magnetesch Parameteren a kierperlech Eegeschafte sinn getest, mat inévitabel Verloscht vun Magnéitfeld Kraaft net méi wéi 5%. . | ||||||||
Virdeel:
D'Eegeschafte vun dëse Magnete si vill besser wéi traditionell a si sinn am Moment déi mächtegst an der Uwendung. Hir héich
Coercivitéit an héich Remanenz erlaben den neien Design an d'Méiglechkeet fir d'Magnéitfeld vun der Uwendung ze erhéijen wou Plaz limitéiert ass
oder wou e staarkt Magnéitfeld néideg ass.
NdFeB Magnete si ganz ufälleg fir Korrosioun. Dofir erfuerdert eng Schutzflächbeschichtung. Benotzt vun NdFeB Magnéit sinn bedingt
duerch d'Temperatur an enger breeder Palette vun 80ºC bis 230ºC. An och funktionnéiert et bei Temperaturen ënner 0 ℃.
Applikatioun:
Neodymmagnete ginn als verschidden Aarte vu magnetesche Lënse benotzt fir ze fokusséieren, Oflenkung vu geluedenen Partikelen an Elektronik, Bremssystemer,
Tropfen, Sensor, Magnéitsystem a Rotor- a Mikromotoren, a Wëssenschaftsberäich, Medizin (Tomographie, NMR Spektrometer), asw.
Haut ginn NdFeB Magnete a grousse Quantitéiten op der ganzer Welt benotzt. D'Entwécklung vun dësem Material ass nach net fäerdeg; d'Remanenz
an Zwangsfeldkraaft ginn kontinuéierlech erhéicht. Déi héich Energie vun NdFeB Magnete bedeit datt Motoren a Sensoren gebaut kënne ginn
ëmmer méi kleng - an dat bedeit eng Erhéijung vun der Leeschtungseffizienz. Déi lafend Verbesserungen erméiglechen dëst interessant Material ze konti-
an nei Beräicher agefouert.
All uginn Wäerter goufen mat Standard Echantillon no IEC 60404-5 bestëmmt. Déi folgend Spezifikatioune déngen als Referenz Wäerter an
kann ënnerscheeden. Fir méi Informatioun kontaktéiert eis Applikatiounsingenieuren.
