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Synonyms were used for: Coercivity
Search without synonyms: keywords:("Coercivity")
Used synonyms:
- coercive force
- koerzitive feldstarke
- koerzitivfeldstarke
- koerzitivkraft
-
$ Fe_{3} $Si nanoparticles for alternating magnetic field heating
Online Contents | 2013|Keywords: Dynamic coercivity -
$ Fe_{20} $$ Ni_{80} $/$ Fe_{50} $$ Mn_{50} $ film magnetoresistive medium
Online Contents | 2015|Keywords: Coercive Force -
1.1.1.2 RCo3-based nanocomposites
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.1.1 RCo3 type
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.1.2 R2Co7 type
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.1.3.1 RCo5 (s = 0)
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.1.3.2 RCo(5+Є)-RCo7 type (0 < s ≤ 0.22)
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.1.3.3 R2Co17 type (s = 0.33)
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.1.3.4 Z-Nanocomposites
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.2.1.1 Stoichiometric (R,R’)2(Fe,M)14B or (R,R’)11.7(Fe,M)82.3B6 (R,R’/Fe,M = 11.7/83.3 = 0.14)
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.2.1.2 (R,R’)2(Fe,M)14B-based nanocomposites
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.2.2.2 (R,R’)2(Fe,M)14C type: Magnetic properties
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.3.1.2 SmFe3-based nanocrystalline alloys: Magnetic properties
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.3.2.2 Sm5Fe17-based alloys: Magnetic properties
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.3.3.1 Equilibrium nanocrystalline rhombohedral R\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$ . \overline{3} . $\end{document}m Sm2(Fe,M)17-derived alloys Sm2Fe17–xMxXε (x > 0, ε ≥ 0), or R1-s(Fe,M,M’)5+2s-type family (s = 0.33), or Rx(Fe,M,M’)100–xXε alloys (x = 10.5 at-% R)
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.3.3.2 Equilibrium nanocrystalline tetragonal I4/mmm R(Fe,M,M’)12-derived alloys R(Fe,M,M’)12Xε (R = Nd, Pr, Sm; M’ = stabilizing element; X = N, C; ε ~ 1…1.5 for R = Nd, Pr; ε = 0 for R = Sm), or derived R1–s(Fe,M,M’)5+2sXε-type family (s = 0.5), or derived Rx(Fe,M,M’)100–xXε alloys (x = 7.69 at-% R)
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.3.3.3 Out-of-equilibrium nanocrystalline hexagonal P6/mmm-derived alloys Sm(Fe,M)9Xδ (X = N, C; δ >0), and R(Fe,M,M’)10Xη alloys (η > 0 for R = Nd, Pr; η = 0 for R = Sm), or R1-s(Fe,M,M’)5+2sXδ, η-type alloys (s = 0.36…0.38 and 0.42), or Rx(Fe,M,M’)100–xXδ, η-type alloys (x = 10 at-% and 9.03 at-% R)
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity -
1.4.1.3 R-(Fe,M)-(Al,Si) (R = Nd, Pr, Sm; M = Co, Ni, Cu): Magnetic properties and nanostructure
Nanocrystalline MaterialsLandolt-Börnstein / Springer Materials | 2013|Keywords: coercivity
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