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1J85 Mu Metal Strip with High PermeabilityMu Metal, a Nickel-Iron-Molybdenum alloy, provides high initial and maximum permeabilities with low coercive force, low hysteresis loss, low eddy-current losses, and low magnetostriction at low field strengths.
- Mu Metal Strip for Transformer Lamination
- Permalloy Strip with High Permeability
- 1J85 Mu Metal Ribbon for Shielding
- Mu Metal Strip
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Permalloy Strip with High Magnetic ConductibilityPermalloy Strip has good magnetic performance, high magnetic conductibility in weak magnetic filed, low saturation induction and high resisitivity. It is widely used for cores of small transformer, choke, pulse transformer, relay, magnetic shield, stepping motor and memory element of the electric computer.view more
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1J79 Stress Annealed Mu Metal Strip for ShieldsMu Metal strip is mostly used in low intensity fields where high attenuation, high initial permeability and high shielding efficiency are desired.
- Stress Annealed Mu Metal Strip for Shields
- 1J85 Permalloy Ribbon for Deep Drawn
- Ni80 Stress Annealed Mu Metal Strip for Stamping
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1J85 Stress Annealed Permalloy Strip for Toroidal CoresPermally strip (PC) is a soft magnetic nickel-iron alloy strip with about 80 % nickel, 4.2 - 5.2% molybdenum, a saturation induction of about 0.8T, the highest technically obtainable permeability, and a very low coercive force.view more
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Strip Wound Mu Metal Ring CoreBesides Mu Metal shielding parts used in low frequency magnetic field, Honger also manufactures and supplies Mu Metal ring cores for high accuracy current measurement applications.
- NiFe-based Mu Metal Core for Current Transformer
- Mu Metal Ring Core for HMA Current Transformer
- Strip Wound Mu Metal Ring Core
- Mu Metal Transformer Core
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Strip Wound Toroidal Mu Metal CoreHonger manufactures and supplies strip wound toroidal Mu Metal cores to industries all over the world. Our high accuracy current measurement cores are manufactured from premium quality Mu Metal which offers the highest levels of permeability with exceptionally low coercive forces and magnetic losses.view more