Effect of wheel speed on the crystallization behavior of as-quenched Nd-Fe-B alloys

Abstract: A series of alloys composed of Nd9Fe85Nb0.5B5.5 were prepared through rapid quenching by different wheel speeds. Nanocomposite was usually obtained by subjecting the as-quenched alloys to a crystallization annealing. The crystallization behavior was investigated by differential scanning calorimetry (DSC) as the primary method. The results showed that the DSC curve of sample prepared at 15 m/s had only one exothermic peak at about 690 °C. When the wheel speed increased to 18-27 m/s, one more peak at 590 °C appe… Show more

“…Men et al prepared a set of ribbons with different initial phase structure, i.e., amorphous, TbCu 7 -type Nd 2 Fe 17 B x , α-Fe, and their mixture, by varying wheel speed from 15 to 40 m/s. [43] They used the theory of energy barrier to interpret the crystallization process, as schematized in Fig. 8.…”

“…(color online) The crystallization mechanism of as-quenched ribbons with different initial phase structure. ∆H 1 , ∆H 2 , and ∆ H 3 are the enthalpy change of the reactions: (1) amorphous → Nd 2 Fe 17 B x , (2) Nd 2 Fe 17 B x → Nd 2 Fe 14 B, and (3) amorphous → Nd 2 Fe 14 B, respectively [43].…”

Nanocrystalline and nanocomposite permanent magnets by melt spinning technique

“…Men et al prepared a set of ribbons with different initial phase structure, i.e., amorphous, TbCu 7 -type Nd 2 Fe 17 B x , α-Fe, and their mixture, by varying wheel speed from 15 to 40 m/s. [43] They used the theory of energy barrier to interpret the crystallization process, as schematized in Fig. 8.…”

“…(color online) The crystallization mechanism of as-quenched ribbons with different initial phase structure. ∆H 1 , ∆H 2 , and ∆ H 3 are the enthalpy change of the reactions: (1) amorphous → Nd 2 Fe 17 B x , (2) Nd 2 Fe 17 B x → Nd 2 Fe 14 B, and (3) amorphous → Nd 2 Fe 14 B, respectively [43].…”

Nanocrystalline and nanocomposite permanent magnets by melt spinning technique

“…Different kinetics during quenching, i.e., different temperature gradients, leads to differences in cooling rate and crystallization speed. It is known [27] that crystallization of Nd2Fe14B-type material during rapid quenching proceeds in two stages: at first, TbCu7-type metastable phase arises along with a small amount of α-Fe phase. Then decomposition of the TbCu7-type phase occurs with Nd2Fe14B-type and α-Fe phases formation.…”

Surface Morphology Investigations of Nanocrystalline R2Fe14B (R = Y, Nd, Gd, Er) by Atomic Force Microscopy

Effect of wheel speed on phase formation and magnetic properties of (Nd0.4La0.6)-Fe-B melt-spun ribbons