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18 Years Factory Nano Wound Amorphous Toroid Core With Gap - Amorphous Magnetic Cores For High Frequency Electronics – Pourleroi
AC Reactor | DC Reactor | PFC boost inductor: Under 6kW (Mircolite 100µ), Over 6kW Common mode chokes | MagAmp | Differential mode chokes / SMPS output inductor Spike absorbing cores Performance Characteristics ·High saturation magnetic induction intensity-reduce core volume, ·Rectangular structure – easy coil assembly Core opening – excellent resistance to DC bias saturation ·Low loss – reduce temperature rise (1/5-1/10 of silicon steel) ·Good stability—can work at -50~130... -
High Performance Nano-Crystalline Ribbon For Nanocrystalline Core - Sendust Ring Inductors Powder Core – Pourleroi
In 1932,Masumoto and Yamamoto at Tohoku Imperial University developed new Fe–Si–Al alloys. The alloys were discovered in Sendai and designed for magnetic dust core, so they named the alloys “Sendust” (Masumoto and Yamamoto, 1937). They found that the alloys with 6–11 wt% Si and 4–8 wt% Al show excellent soft magnetic properties. Among them, the Fe–9.62Si–5.38Al shows the largest initial permeability of 35100 and a low coercivity of 1.75 A/m; the Fe–9.66Si–6.21Al shows the largest maximum perm... -
Hot-selling Welding Inverter Core - High Inductance Sendust Core Sendust Block Core High Permeability – Pourleroi
Sendust is a magnetic metal powder that was invented by Hakaru Masumoto at Tohoku Imperial University in Sendai, Japan, about 1936 as an alternative to permalloy in inductor applications for telephone networks. Sendust composition is typically 85% iron, 9% silicon and 6% aluminium. The powder is sintered into cores to manufacture inductors. Sendust cores have high magnetic permeability (up to 140 000), low loss, low coercivity (5 A/m) good temperature stability and saturation flux density up ... -
China Supplier Ct Core - Sendust Cutting Core for Flat Wire Winding – Pourleroi
FeSiAl magnetic ring 1. The magnetic flux density of the ferrite is equal to or less than 0.5T, which is less than half of the iron-silicon-aluminum alloy. Therefore, under the same volume, the energy storage capacity of ferrite is also lower than that of iron-silicon-aluminum alloy. 2. In addition, the full magnetic flux density of ferrite is greatly reduced under high temperature conditions, while high temperature conditions have no obvious effect on FeSiAl. 3. Ferrite has the characteristi... -
Best-Selling Nanocrystalline Nanocrystalline Core With Eorrosion Resistance - High Inductance Sendust Core Sendust Block Core High Permeability – Pourleroi
Sendust is a magnetic metal powder that was invented by Hakaru Masumoto at Tohoku Imperial University in Sendai, Japan, about 1936 as an alternative to permalloy in inductor applications for telephone networks. Sendust composition is typically 85% iron, 9% silicon and 6% aluminium. The powder is sintered into cores to manufacture inductors. Sendust cores have high magnetic permeability (up to 140 000), low loss, low coercivity (5 A/m) good temperature stability and saturation flux density up ... -
Hot-selling Capacitor Inductor Filter - Sendust Core for Power Inductor – Pourleroi
Comprising 85% iron (Fe), 9% silicon (Si) & 6% aluminum (Al), Sendust is an alloy powder material widely used in magnetics applications. It’s alternatively called as Kool Mu by Magnetics. It features itself with a low loss, relatively high saturation flux density (10,500 Gauss), close to zero magnetostriction as well as a very stable performance at high termperature, or say, no thermal aging. What are the advantages of sendust core ? 1.Significantly lower core losses than Iro... -
Excellent quality Amorphous C-Core - Amorphous Magnetic Cores For High Frequency Electronics – Pourleroi
AC Reactor | DC Reactor | PFC boost inductor: Under 6kW (Mircolite 100µ), Over 6kW Common mode chokes | MagAmp | Differential mode chokes / SMPS output inductor Spike absorbing cores Performance Characteristics ·High saturation magnetic induction intensity-reduce core volume, ·Rectangular structure – easy coil assembly Core opening – excellent resistance to DC bias saturation ·Low loss – reduce temperature rise (1/5-1/10 of silicon steel) ·Good stability—can work at -50~130... -
Fast delivery Nanocrystalline Cores - High Permeability Nanocrystalline C core – Pourleroi
Nanocrystalline materials also have the advantages of silicon steel, permalloy, and ferrite. which is: 1. High magnetic induction: the saturation magnetic induction Bs=1.2T, which is twice that of permalloy and 2.5 times that of ferrite. The power density of the iron core is large, which can reach 15 kW to 20 kW/kg. 2. High permeability: The initial static permeability μ0 can be as high as 120,000 to 140,000, which is equivalent to permalloy. The magnetic permeability of the iron core of the ... -
High Quality for Toroidal Low Voltage Split Core - High Flux Cores – Pourleroi
High flux cores are designed to operate up to about 6500 gauss, as opposed to the 3500 gauss limit of standard MP (Mollypermalloy) cores. There is some sacrifice in stability because less distributed air gap is required to obtain the reduced permeabilities. Core losses are also higher than MP, although because of their high flux and power-handling capabilities, HF cores are used as energy storage inductors and in line output (flyback) transformers in SMPS. They are also especially well suited... -
China Gold Supplier for Transformer Gap Discharge Core - Low loss Sendust Core for AC inductors – Pourleroi
Sendust is a magnetic metal powder that was invented by Hakaru Masumoto at Tohoku Imperial University in Sendai, Japan, about 1936 as an alternative to permalloy in inductor applications for telephone networks. Sendust composition is typically 85% iron, 9% silicon and 6% aluminium. The powder is sintered into cores to manufacture inductors. Sendust cores have high magnetic permeability (up to 140 000), low loss, low coercivity (5 A/m) good temperature stability and saturation flux density up ... -
Manufacturer of Rectangular Nanocrystalline Core - High Permeability Nanocrystalline C core – Pourleroi
Nanocrystalline materials also have the advantages of silicon steel, permalloy, and ferrite. which is: 1. High magnetic induction: the saturation magnetic induction Bs=1.2T, which is twice that of permalloy and 2.5 times that of ferrite. The power density of the iron core is large, which can reach 15 kW to 20 kW/kg. 2. High permeability: The initial static permeability μ0 can be as high as 120,000 to 140,000, which is equivalent to permalloy. The magnetic permeability of the iron core of the ... -
Big discounting Emi Filter Amorphous Nanocrystalline Blue Toroidal Core - Material Nanocrystalline Core With Black Plastic Case – Pourleroi
Nanocrystalline cores are used in more new applications than any other core material. The use of nanocrystalline cores for high-frequency applications have historically been associated with high material costs and narrow core widths. This has led many designers to sacrifice performance to appease budgetary concerns. However, this has changed due to the release of a new domestically produced nanocrystalline material called Finemet® FT-3W. This newly developed source of material has allowed us ...
