Sintered NdFeB magnets 
NdFeB arc magnets NdFeB block magnets NdFeB ring magnets NdFeB cylinder magnets NdFeB disc magnets NdFeB tube magnets NdFeB rod magnets NdFeB sphere magnets Customer magnets Bonded NdFeB magnets Compression magnets Injection magnets AlNiCo magnets AlNiCo block magnets AlNiCo ring magnets U-shape magnets AlNiCo arc magnets AlNiCo disc magnets AlNiCo cylinder magnets Irregular magnets SmCo magnets SmCo arc magnets SmCo block magents SmCo Cylinder magnets SmCo disc magnets SmCo ring magnets Customers magnets Ferrite magnets Ferrite arc magnets Ferrite block magnets Ferrite cylinder magnets Ferrite disc magnets Ferrite ring magnets magnetic filter magnetic rods magnetic grids magnetic separator Water magnetic clean water magnetic filter magnetic speaker parts tweeter york motor parts rotor parts shaft parts stator parts other magnetic applications cow magnets cup magnet magneitc coupling Magnetic chuck magnetic holding tool Magnetic hook magnetic lifter OEM products 
The flux output of the Samarium Cobalt (SmCo) magnets is more stable with changes in temperature than NdFeB magnets due to having better temperature coefficients (e.g. -0.030%/°C for change in Br versus -0.100%/°C for NdFeB and -0.20%/°C for change in Hci versus -0.60%/°C for NdFeB). This can be particularly useful in critical applications such as sensors (although Alnico can be a better choice for temperature stability). It also means that Samarium Cobalt can resist demagnetisation better than Neodymium in higher temperature applications such as motors.
Magnetic Characteristics of Sintered SmCo:
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