Impact of magnetization state on the corrosion of sintered Nd–Fe–B magnets for e‐motor applications

We have created an accelerated corrosion environment for sintered Nd–Fe–B magnets in e‐motor applications. E‐motor working conditions are complex, and standard magnet corrosion tests only cover a small subset of possible parameters (e.g., samples are usually tested in the demagnetized state). In this work magnetized and demagnetized sintered Nd–Fe–B magnets were placed in gearbox oil, and exposed to temperature cycles (θmax = 130 °C) using an autoclave. Beforehand the magnets were pre‐immersed in saturated water‐based salt solution to account for water and de‐icing salt that might interfuse gearbox oil over time. The corrosive behavior was studied for two commercial magnet grades, “high grade” (8.9 wt% dysprosium) and “low grade” (3.1 wt% dysprosium); and monitored by weight loss, structural analysis (scanning electron microscopy and energy dispersive X‐ray) as well as magnetic characterization. The magnetized samples corroded significantly faster than their demagnetized counterparts. Strong differences in the corrosion rates of the “low grade” and “high grade” material are discussed. We concluded that the magnetization state is one key parameter that needs to be considered in corrosion tests for e‐motor applications.

[1]  L. Schultz,et al.  Effect of magnetization state on the corrosion behaviour of NdFeB permanent magnets , 2011 .

[2]  Christina H. Chen,et al.  Magnetic Materials and Devices for the 21st Century: Stronger, Lighter, and More Energy Efficient , 2011, Advanced materials.

[3]  T. G. Woodcock,et al.  Multi-phase EBSD mapping and local texture analysis in NdFeB sintered magnets , 2011 .

[4]  L. Schultz,et al.  Corrosion, passivation and breakdown of passivity of neodymium , 2010 .

[5]  Zhenlun Song,et al.  A comparative study on the corrosion behavior of NdFeB magnets in different electrolyte solutions , 2008 .

[6]  Jian-sheng Wu,et al.  Dependence of the crystal structure of the Nd-rich phase on oxygen content in an Nd–Fe–B sintered magnet , 2008 .

[7]  L. Schultz,et al.  Corrosion studies on highly textured Nd–Fe–B sintered magnets , 2006 .

[8]  Lianqing Yu,et al.  Effects of Dy and Nb on the magnetic properties and corrosion resistance of sintered NdFeB , 2004 .

[9]  I. Costa,et al.  The effect of the magnetic field on the corrosion behavior of Nd–Fe–B permanent magnets , 2004 .

[10]  L. Schultz,et al.  Local texture in Nd–Fe–B sintered magnets with maximised energy density , 2004 .

[11]  A. Gebert,et al.  Electrochemical characterization of galvanically coupled single phases and nanocrystalline NdFeB-based magnets in NaCl solutions , 2003 .

[12]  L. Schultz,et al.  Corrosion behaviour of textured and isotropic nanocrystalline NdFeB-based magnets , 2002 .

[13]  L. Schultz,et al.  The influence of Co and Ga additions on the corrosion behavior of nanocrystalline NdFeB magnets , 2002 .

[14]  M. Katter,et al.  Corrosion mechanism of RE-Fe-Co-Cu-Ga-Al-B magnets , 2001 .

[15]  W. Rodewald,et al.  Korrosionsverhalten von Nd-Fe-B-Dauermagneten , 2000 .

[16]  H. White,et al.  Magnetic focusing of redox molecules at ferromagnetic microelectrodes , 1999 .

[17]  L. Schultz,et al.  Corrosion behaviour of Nd–Fe–B permanent magnetic alloys , 1999 .

[18]  A. Kim,et al.  HYDROGEN INDUCED CORROSION MECHANISM IN NDFEB MAGNETS , 1996 .

[19]  B. Ma,et al.  The effects of average grain size on the magnetic properties and corrosion resistance of NdFeB sintered magnets , 1996 .

[20]  I. R. Harris,et al.  Anisotropic hydrogen decrepitation and corrosion behaviour in NdFeB magnets , 1994 .

[21]  A. Kim,et al.  Effect of microstructure on the corrosion behavior of NdFeB and NdFeCoAlB magnets , 1991 .

[22]  G. Pawłowska,et al.  Corrosion characteristics of NdFeB sintered magnets containing various alloying elements , 1990 .

[23]  J. Fidler,et al.  Electron microscopy of Nd-Fe-B based magnets , 1989 .

[24]  S. Hirosawa,et al.  Magnetic characteristics of R2Fe14B systems prepared with high purity rare earths (R=Ce, Pr, Dy, and Er) , 1985 .

[25]  M. Pourbaix Atlas of Electrochemical Equilibria in Aqueous Solutions , 1974 .

[26]  H. C. H. CARPENTER,et al.  The Corrosion of Metals , 1915, Nature.