Factory Lupum Sinis Price List Transformer Toroidal Ferrite
Scimus nos tantum vigere si possumus praestare compositionem nostram quantitatis aestimationis ac summae qualitatis commodum simul ad Factory Lupum Sinarum Price List Transformer Toroidal Ferrite, novos et superiores emptores suscipimus ab omnibus ambulationibus vitae cotidianae ut tactus cum nobis ad praevisam futuram ordinationem interationes et mutuam felicitatem!
Scimus nos tantum vigere, si pretium tag competentiae coniunctae et qualitatem supremam commodi simulque praestare possumusSina NdFeB Magnet,Neodymium Magnet Omnes baculi nostri credunt: Qualitas hodie aedificat, et servitium futurum creat. Scimus bonam qualitatem et optimam servitutem nobis viam unicam esse ut clientes nostros assequamur et nos quoque assequamur. clientes excipimus toto verbo ut nos attingamus ad relationes de negotiis futuris. Bona nostra sunt optima. Electus, aeternus!
Introductio
AlNiCo mixtiones plerumque constant ex aluminio, nickel, cobalto, cupro, ferro et titanio. In nonnullis gradibus cobaltum et/vel titanium omitti possunt. Etiam hae admixtiones continent additamenta pii, columbii, zirconium vel alia elementa, quae responsionem unius notae magneticae curationi caloris augere possunt. AlNiCo mixturae formantur eiecto vel pulvere processuum metallurgicorum.
Pluma:
1. Magnes AlNiCo altam inductionem remanentem habet, sed humilis coercitivam. Firmum operatur in extrema temperantia, conservans eius indolem magneticam inter - 250ºC et 550ºC. Fundatur in inductione magnetica superior, late in instrumentis metiendis et systematibus deprehendendi.
2. Alnico materia fragilis est et modo variari potest in processu dejectione. Eius propensio effectum est in curatione caloris, producens campum magneticum cum directione magnetica definita.
3. Ob vim humilem coactivam, magnetes AlNiCo facile affici possunt vi reversa magnetica et impulsu ferri. Quam ob rem facile ab influentiis externis corrumpi possunt. Quam ob rem magnetes AlNiCo iisdem polis inter se oppositis condi et referti non debent.
4. In ambitu aperto, ratio longitudinis/diametri (L/D) esse debet saltem 4:1. Longioribus brevioribus;
5. Magnetes AlNiCo bene se habent contra oxidationem. Nulla membrana requiritur ad praesidium superficiei.
Applications
Utere in productis sensibilitatis magnae ut Instrumenta, Metra, Mobile Phones, partes automobiles, machinis Electroacousticis, Motors, Doctrinae et Aerospace militaris, etc.
Omnes valores statuti determinati sunt utens exemplaria regulae secundum IEC 60404-5. Specificationes sequentes valores referuntur et differre possunt.
Projice AlNiCo Magnet Physica | ||||||||
Materia | Gradus | Remanentia | Rev. Temp.-Coeff. Domini Br | Coactio | Rev. Temp.-Coeff. Domini Hcj | Maximilianus. Energy Product | Maximilianus. Operating Temperature | Density |
Br (KGs) | Hcb (TU) | (BH) max. (MGOe) | g/cm³ | |||||
Isotropic | LN9 | 6.8 | -0.03 | 0.38 | -0.02 | 1.13 | 450℃ | 6.9 |
Isotropic | LN10 | 6.0 | -0.03 | 0.50 | -0.02 | 1.20 | 450℃ | 6.9 |
Isotropic | LNG12 | 7.2 | -0.03 | 0.50 | +0.02 | 1.55 | 450℃ | 7.0 |
Isotropic | LNG13 | 7.0 | -0.03 | 0.60 | +0.02 | 1.60 | 450℃ | 7.0 |
Isotropic | LNGT18 | 5.8 | -0.025 | 1.25 | +0.02 | 2.20 | 550℃ | 7.3 |
Anisotropic | LNG37 | 12.0 | -0.02 | 0.60 | +0.02 | 1.65 | 525℃ | 7.3 |
Anisotropic | LNG40 | 12.5 | -0.02 | 0.60 | +0.02 | 5.00 | 525℃ | 7.3 |
Anisotropic | LNG44 | 12.5 | -0.02 | 0.65 | +0.02 | 5.50 | 525℃ | 7.3 |
Anisotropic | LNG52 | 13.0 | -0.02 | 0.70 | +0.02 | 6.50 | 525℃ | 7.3 |
Anisotropic | LNG60 | 13.5 | -0.02 | 0.74 | +0.02 | 7.50 | 525℃ | 7.3 |
Anisotropic | LNGT28 | 10.8 | -0.02 | 0.72 | +0.03 | 3.50 | 525℃ | 7.3 |
Anisotropic | LNGT36J | 7.0 | -0.025 | 1.75 | +0.02 | 4.50 | 550℃ | 7.3 |
Anisotropic | LNGT32 | 8.0 | -0.025 | 1.25 | +0.02 | 4.00 | 550℃ | 7.3 |
Anisotropic | LNGT40 | 8.0 | -0.025 | 1.38 | +0.02 | 5.00 | 550℃ | 7.3 |
Anisotropic | LNGT60 | 9.0 | -0.025 | 1.38 | +0.02 | 7.50 | 550℃ | 7.3 |
Anisotropic | LNGT72 | 10.5 | -0.025 | 1.40 | +0.02 | 9.00 | 550℃ | 7.3 |
AlNiCo Magnet Corporalis Properties | |||||||||
Materia | Gradus | Remanentia | Rev. Temp.-Coeff. Domini Br | Coactio | Coactio | Rev. Temp.-Coeff. Domini Hcj | Maximilianus. Energy Product | Maximilianus. Operating Temperature | Density |
Br (KGs) | Hcb (KA/m) | Hcj (KA/m) | (BH)max. (KJ/m³) | g/cm³ | |||||
Isotropic | SALNICO4/1 | 8.7-8.9 | -0.02 | 9-11 | 10-12 | -0.03~0.03 | 3.2-4.8 | 750℃ | 6.8 |
Isotropic | SALNICO8/5 | 5.3-6.2 | -0.02 | 45-50 | 47-52 | -0.03~0.03 | 8.5-9.5 | 750℃ | 6.8 |
Isotropic | SALNICO10/5 | 6.3-7.0 | -0.02 | 48-56 | 50-58 | -0.03~0.03 | 9.5-11.0 | 780℃ | 6.8 |
Isotropic | SALNICO12/5 | 7.0-7.5 | -0.02 | 50-56 | 53-58 | -0.03~0.03 | 11.0-13.0 | 800℃ | 7 |
Isotropic | SALNICO14/5 | 7.3-8.0 | -0.02 | 47-50 | 50-53 | -0.03~0.03 | 13.0-15.0 | 790℃ | 7.1 |
Isotropic | SALNICO 14/6 | 6.2-8.1 | -0.02 | 56-64 | 58-66 | -0.03~0.03 | 14.0-16.0 | 790℃ | 7.1 |
Isotropic | SALNICO14/8 | 5.5-6.1 | -0.01 | 75-88 | 80-92 | -0.03~0.03 | 14.0-16.0 | 850℃ | 7.1 |
Isotropic | SALNICO18/10 | 5.7-6.2 | -0.01 | 92-100 | 99-107 | -0.03~0.03 | 16.0-19.0 | 860℃ | 7.2 |
Anisotropic | SALNICO35/5 | 11-12 | -0.02 | 48-52 | 50-54 | -0.03~0.03 | 35.0-39.0 | 850℃ | 7.2 |
Anisotropic | SALNICO29/6 | 9.7-10.9 | -0.02 | 58-64 | 60-66 | -0.03~0.03 | 29.0-33.0 | 860℃ | 7.2 |
Anisotropic | SALNICO32/10 | 7.7-8.7 | -0.01 | 90-104 | 94-109 | -0.03~0.03 | 33.0-38.0 | 860℃ | 7.2 |
Anisotropic | SALNICO33/11 | 7.0-8.0 | -0.01 | 107-115 | 111-119 | -0.03~0.03 | 33.0-38.0 | 860℃ | 7.2 |
Anisotropic | SALNICO39/12 | 8.3-9.0 | -0.01 | 115-123 | 119-127 | -0.03~0.03 | 39.0-43.0 | 860℃ | 7.25 |
Anisotropic | SALNICO44/12 | 9.0-9.5 | -0.01 | 119-127 | 124-132 | -0.03~0.03 | 44.0-48.0 | 860℃ | 7.25 |
Anisotropic | SALNICO37/15 | 7.0-8.0 | -0.1 | 143-151 | 150-158 | -0.03~0.03 | 37.0-41.0 | 870℃ | 7.2 |
Nota:
· Idem manemus qui supra, nisi ex emptore specificati. Curie temperies et temperatus coefficientes tantum referendi sunt, non ut ratio sententiae.
Maximae operationis caloris magnetis est mutabilis propter rationem longitudinis et diametri et ambitus factorum.