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  • 2022 New Style Amorphous Core Soft Magnetic Material - Sendust Core for Power Inductor – Pourleroi

    2022 New Style Amorphous Core Soft Magnetic Material - 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...
  • Amorphous Magnetic Cores For High Frequency Electronics – Pourleroi

    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...
  • Low price for Transformer Core Design - Low loss Sendust Core for AC inductors – Pourleroi

    Low price for Transformer Core Design - 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 ...
  • professional factory for Tube Transformer Core - High Inductance Sendust Core Sendust Block Core High Permeability – Pourleroi

    professional factory for Tube Transformer 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 ...
  • Professional Design Power Line Choke High Frequency Ferrite Cores - Sendust Core for Power Inductor – Pourleroi

    Professional Design Power Line Choke High Frequency Ferrite Cores - 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...
  • China wholesale Nanocrystalline Core Commom Mode Choke - High Inductance Sendust Core Sendust Block Core High Permeability – Pourleroi

    China wholesale Nanocrystalline Core Commom Mode Choke - 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 ...
  • 2022 wholesale price Different Size Amorphous Cores - Amorphous Magnetic Cores For High Frequency Electronics – Pourleroi

    2022 wholesale price Different Size Amorphous Cores - 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...
  • Good quality Silicon Steel Toroidal Core - High Inductance Sendust Core Sendust Block Core High Permeability – Pourleroi

    Good quality Silicon Steel Toroidal 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 ...
  • Wholesale Price Amorphous Block Core - Amorphous core /Amorphous cut core – Pourleroi

    Wholesale Price Amorphous Block Core - Amorphous core /Amorphous cut core – Pourleroi

    Features + High saturation magnetic induction – reduce core volume; + Rectangular structure—convenient for 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 -55-130 ℃ for a long time. Application field ·Inverter reactor, transformer core ·Wide constant permeability inductor core, PFC inductor core ·Intermediate frequency transformer c...
  • Top Suppliers Common Mode Choke Of Nanocrystalline Alloy Material Core - Sendust Core Powder Inductor for AC Transformer – Pourleroi

    Top Suppliers Common Mode Choke Of Nanocrystalline Alloy Material Core - Sendust Core Powder Inductor for AC Transformer – Pourleroi

    What are the advantages of iron-silicon-aluminum magnetic ring in the application of inductors Although ferrosilicon has a higher saturation flux density, ferrosilicon has more advantages, such as better soft saturation, low core loss, temperature stability and lower cost. When the inductor uses the iron-silicon-aluminum magnetic powder core, the disadvantageous factors brought by the use of the air-gap ferrite magnetic ring can be eliminated. FeSiAl magnetic ring 1. The magnetic flux density...
  • Good quality High Permiability Professional C Core - Sendust Core Powder Inductor for AC Transformer – Pourleroi

    Good quality High Permiability Professional C Core - Sendust Core Powder Inductor for AC Transformer – Pourleroi

    What are the advantages of iron-silicon-aluminum magnetic ring in the application of inductors Although ferrosilicon has a higher saturation flux density, ferrosilicon has more advantages, such as better soft saturation, low core loss, temperature stability and lower cost. When the inductor uses the iron-silicon-aluminum magnetic powder core, the disadvantageous factors brought by the use of the air-gap ferrite magnetic ring can be eliminated. FeSiAl magnetic ring 1. The magnetic flux density...
  • 2022 High quality Custom Made Special Shape Nanocrystalline Core - High Permeability Nanocrystalline C core – Pourleroi

    2022 High quality Custom Made Special Shape 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 ...