# Fileset

[Table_9_all_data.csv](https://mdr.nims.go.jp/filesets/006abab2-e9ba-44e6-9a6b-1cc8b1a60141/download)

## Creator

[Akira Suzuki](https://orcid.org/0000-0002-8167-0414)

## Rights

Creative Commons BY Attribution 4.0 International[Creative Commons BY Attribution 4.0 International](https://creativecommons.org/licenses/by/4.0/)

## Other metadata

[A material dictionary database to extract information on permanent magnets from scientific articles](https://mdr.nims.go.jp/datasets/20a8b35a-6c97-4670-bdf3-c157aeb3d470)

## Fulltext

Pattern Phrase Base_phrase Relations Frequency <QNT>_of_<Value>_,_<Value>_,_and_<Value> (_B_H_)_of_0_kA_/_m_,_0_T_,_and_0_kJ_/_m_3 ((_B_H_), 0_kA_/_m, 0_T, 0_kJ_/_m_3) (0, 1), (0, 2), (0, 3) 1 <QNT>_of_<Value>_,_<Value>_,_and_<Value> (_BH_)_of_0_kA_/_m_,_0_T_,_and_0_kJ_/_m_3 ((_BH_), 0_kA_/_m, 0_T, 0_kJ_/_m_3) (0, 1), (0, 2), (0, 3) 1 <QNT>_in_<Shape> anisotropy_field_in_(_Nd_,_Pr_)_Fe_B_region (anisotropy_field, (_Nd_,_Pr_)_Fe_B_region) (1, 0) 1 <QNT>_of_<Class> anisotropy_field_of_(_Nd_,_Dy_)_Fe_B (anisotropy_field, (_Nd_,_Dy_)_Fe_B) (1, 0) 1 <QNT>_of_<Shape> anisotropy_field_of_(_Nd_,_Pr_)_Fe_B_phase (anisotropy_field, (_Nd_,_Pr_)_Fe_B_phase) (1, 0) 3 <QNT>_=_<Value>_,_<QNT>_=_<Value>_,_and_<QNT>_=_<Value>_in_<Shape> B_=_0_kG_,_H_=_0_kOe_,_and_energy_product_(_BH_)_=_0_MGOe_in_ribbon (B, 0_kG, H, 0_kOe, energy_product_(_BH_), 0_MGOe, ribbon) (0, 1), (2, 3), (4, 5), (6, 1), (6, 2), (6, 3) 1 <QNT>_increases_from_<Value>_in_<Class>_to_<Value>_in_<Class> coercivity_increases_from_0_Oe_in_SrFe_O_to_0_,_0_Oe_in_SrAl_Fe_O (coercivity, 0_Oe, SrFe_O, 0_,_0_Oe, SrAl_Fe_O) (0, 1), (1, 2), (0, 3), (3, 4) 1 <QNT>_=_<Value>_,_<QNT>_=_<Value>_,_and_<QNT>_=_<Value>_in_<Element> J_=_0_T_,_H_=_0_kA_/_m_,_and_(_BH_)_=_0_kJ_/_m_3_in_Pr (J, 0_T, H, 0_kA_/_m, (_BH_), 0_kJ_/_m_3, Pr) (0, 1), (2, 3), (4, 5), (6, 1), (6, 2), (6, 3) 1 <QNT>_=_<Value>_,_<QNT>_=_<Value>_,_and_<QNT>_=_<Value>_in_<Class> J_=_0_T_,_H_=_0_kA_/_m_,_and_(_BH_)_=_0_kJ_/_m_3_in_Pr_Fe_Ti_B_alloy (J, 0_T, H, 0_kA_/_m, (_BH_), 0_kJ_/_m_3, Pr_Fe_Ti_B_alloy) (0, 1), (2, 3), (4, 5), (6, 1), (6, 2), (6, 3) 1 <QNT>_of_<Class> maximum_energy_product_of_(_Nd_,_Dy_)_Fe_B (maximum_energy_product, (_Nd_,_Dy_)_Fe_B) (1, 0) 1 <QNT>_of_<Value> maximum_value_of_0_,_0_Oe (maximum_value, 0_,_0_Oe) (0, 1) 1 <Class>_with_<QNT>_=_<Value>_,_<QNT>_=_<Value>_,_and_<QNT>_=_<Value> melt_spun_(_Nd_Pr_)_(_Fe_Co_)_Nb_B_alloy_with_H_=_0_kA_/_m_,_J_=_0_T_,_and_(_BH_)_=_0_kJ_/_m_3 (melt_spun_(_Nd_Pr_)_(_Fe_Co_)_Nb_B_alloy, H, 0_kA_/_m, J, 0_T, (_BH_), 0_kJ_/_m_3) (0, 1), (1, 2), (0, 3), (3, 4), (0, 5), (5, 6) 1 <Class>_with_<QNT>_=_<Value>_,_<QNT>_=_<Value>_,_and_<QNT>_=_<Value> Nd_Fe_B_magnet_with_H_=_0_kA_m_-_1_,_B_=_0_T_,_and_(_BH_)_=_0_kJ_m_-_3 (Nd_Fe_B_magnet, H, 0_kA_m_-_1, B, 0_T, (_BH_), 0_kJ_m_-_3) (0, 1), (1, 2), (0, 3), (3, 4), (0, 5), (5, 6) 1 <QNT>_,_<QNT>_,_and_<QNT>_be_<Value>_,_<Value>_,_and_<Value> remanence_,_coercivity_,_and_energy_product_be_0_T_,_0_T_,_and_0_MGOe (remanence, coercivity, energy_product, 0_T, 0_T, 0_MGOe) (0, 3), (1, 4), (2, 5) 1 <QNT>_of_<Value>_,_<Value>_,_and_<Value> remanent_magnetization_of_0_,_0_,_and_0_kA_/_m (remanent_magnetization, 0, 0, 0_kA_/_m) (0, 1), (0, 2), (0, 3) 1 <Shape>_with_<QNT>_=_<Value>_,_<QNT>_=_<Value>_,_and_<QNT>_=_<Value> ribbon_with_μ_M_=_0_0_T_,_μ_H_=_0_0_T_,_and_(_BH_)_=_0_0_MGOe (ribbon, μ_M, 0_0_T, μ_H, 0_0_T, (_BH_), 0_0_MGOe) (0, 1), (1, 2), (0, 3), (3, 4), (0, 5), (5, 6) 1 <Class>_with_<QNT>_=_<Value>_,_<QNT>_=_<Value>_,_and_<QNT>_=_<Value> SmCo_magnet_with_μ_M_=_0_T_,_μ_H_=_0_T_,_and_(_BH_)_=_0_MGOe (SmCo_magnet, μ_M, 0_T, μ_H, 0_T, (_BH_), 0_MGOe) (0, 1), (1, 2), (0, 3), (3, 4), (0, 5), (5, 6) 1 <QNT>_in_<Shape> temperature_in_(_Nd_,_Dy_)_Fe_B (temperature, (_Nd_,_Dy_)_Fe_B) (1, 0) 1 <QNT>_for_<Class>_be_<QNT>_=_<Value>_,_<QNT>_=_<Value>_,_<QNT>_=_<Value> value_for_pure_Ce_Fe_B_be_hci_=_0_kOe_,_(_BH_)_max_=_0_MGOe_,_B_=_0_kG (value, pure_Ce_Fe_B, hci, 0_kOe, (_BH_)_max, 0_MGOe, B, 0_kG) (1, 2), (2, 3), (1, 4), (4, 5), (1, 6), (6, 7) 1 <QNT>_(_<Value>_) (_B_H_)_(_~_0_MG_Oe_) ((_B_H_), ~_0_MG_Oe) (0, 1) 1 <QNT>_~_<Value> (_B_H_)_~_0_MG_Oe ((_B_H_), 0_MG_Oe) (0, 1) 1 <QNT>_=_<Value> (_B_H_)_=_0_G ((_B_H_), 0_G) (0, 1) 1 <QNT>_=_<Value> (_B_H_)_=_0_kJ_/_m_3 ((_B_H_), 0_kJ_/_m_3) (0, 1) 1 <QNT>_at_<Condition> (_B_H_)_at_T ((_B_H_), T) (0, 1) 1 <QNT>_be_<Value> (_B_H_)_be_0_T ((_B_H_), 0_T) (0, 1) 1 <QNT>_for_<Class> (_B_H_)_for_magnet ((_B_H_), magnet) (1, 0) 1 <QNT>_for_<Class> (_B_H_)_for_Pr_Fe_Ti_Co_B_C ((_B_H_), Pr_Fe_Ti_Co_B_C) (1, 0) 1 <QNT>_for_<Shape> (_B_H_)_for_Pr_Fe_Ti_Co_B_C_ribbon ((_B_H_), Pr_Fe_Ti_Co_B_C_ribbon) (1, 0) 1 <QNT>_of_<Value> (_B_H_)_of_0_0_MG_Oe ((_B_H_), 0_0_MG_Oe) (0, 1) 1 <QNT>_of_<Value> (_B_H_)_of_0_kA_/_m ((_B_H_), 0_kA_/_m) (0, 1) 1 <QNT>_of_<Class> (_B_H_)_of_magnet ((_B_H_), magnet) (1, 0) 1 <QNT>_up_to_<Value> (_B_H_)_up_to_~_0_MG_Oe ((_B_H_), ~_0_MG_Oe) (0, 1) 1 <QNT>_(_<Value>_) (_BH_)_(_0_0_MGOe_) ((_BH_), 0_0_MGOe) (0, 1) 1 <QNT>_=_<Value> (_BH_)_=_0_0_MGOe ((_BH_), 0_0_MGOe) (0, 1) 6 <QNT>_=_<Value>_at_<Condition> (_BH_)_=_0_kJ_/_m_3_at_0_K ((_BH_), 0_kJ_/_m_3, 0_K) (0, 1), (1, 2) 1 <QNT>_=_<Value> (_BH_)_=_0_MG_Oe ((_BH_), 0_MG_Oe) (0, 1) 2 <QNT>_for_<Class> (_BH_)_for_DQ_alloy ((_BH_), DQ_alloy) (1, 0) 1 <QNT>_for_<Class> (_BH_)_for_Fe_Co ((_BH_), Fe_Co) (1, 0) 1 <QNT>_for_<Class> (_BH_)_for_hot_deformed_magnet ((_BH_), hot_deformed_magnet) (1, 0) 1 <QNT>_for_<Shape> (_BH_)_for_thick_film ((_BH_), thick_film) (1, 0) 1 <QNT>_in_<Class> (_BH_)_in_quaternary_magnet ((_BH_), quaternary_magnet) (1, 0) 1 <QNT>_in_<Class> (_BH_)_in_Sm_Co_magnet ((_BH_), Sm_Co_magnet) (1, 0) 1 <QNT>_~_<Value> (_BH_)_max_~_0_MGOe ((_BH_)_max, 0_MGOe) (0, 1) 2 <QNT>_=_<Value> (_BH_)_max_=_~_0_MGOe ((_BH_)_max, ~_0_MGOe) (0, 1) 1 <QNT>_=_<Value>_at_<Condition> (_BH_)_max_=_~_0_MGOe_at_0_K ((_BH_)_max, ~_0_MGOe, 0_K) (0, 1), (1, 2) 1 <QNT>_=_<Value>_at_<Condition> (_BH_)_max_=_0_MGOe_at_0_K ((_BH_)_max, 0_MGOe, 0_K) (0, 1), (1, 2) 1 <QNT>_be_<Value> (_BH_)_max_be_0_kOe ((_BH_)_max, 0_kOe) (0, 1) 1 <QNT>_between_<Value>_and_<Value> (_BH_)_max_between_0_and_0_MGOe ((_BH_)_max, 0, 0_MGOe) (0, 1), (0, 2) 1 <QNT>_for_<Class> (_BH_)_max_for_(_Nd_Ce_)_Fe_B ((_BH_)_max, (_Nd_Ce_)_Fe_B) (1, 0) 1 <QNT>_for_<Class> (_BH_)_max_for_die_upset_magnet ((_BH_)_max, die_upset_magnet) (1, 0) 1 <QNT>_for_<Element> (_BH_)_max_for_x_=_0 ((_BH_)_max, x_=_0) (1, 0) 1 <QNT>_in_<Class> (_BH_)_max_in_(_Nd_Ce_)_Fe_Co_B ((_BH_)_max, (_Nd_Ce_)_Fe_Co_B) (1, 0) 1 <QNT>_in_<Element> (_BH_)_max_in_Ce ((_BH_)_max, Ce) (1, 0) 1 <QNT>_in_<Class> (_BH_)_max_in_sintered_magnet ((_BH_)_max, sintered_magnet) (1, 0) 1 <QNT>_of_<Value> (_BH_)_of_~_0_kJ ((_BH_), ~_0_kJ) (0, 1) 1 <QNT>_of_<Value> (_BH_)_of_~_0_kJ_m_-_3 ((_BH_), ~_0_kJ_m_-_3) (0, 1) 1 <QNT>_of_<Value> (_BH_)_of_0_kA_/_m ((_BH_), 0_kA_/_m) (0, 1) 1 <QNT>_of_<Class> (_BH_)_of_magnet ((_BH_), magnet) (1, 0) 2 <QNT>_of_<Shape> (_BH_)_of_sample ((_BH_), sample) (1, 0) 2 <QNT>_of_<Class> (_BH_)_of_waste_magnet ((_BH_), waste_magnet) (1, 0) 1 <QNT>_of_<Value> (_BH_)_value_of_0_kJ_/_m_3 ((_BH_)_value, 0_kJ_/_m_3) (0, 1) 3 <QNT>_of_<Value> (_BH_)_value_of_0_MGOe ((_BH_)_value, 0_MGOe) (0, 1) 2 <Class>_be_<Value> (_Nd_Ce_)_Fe_B_be_0_kOe ((_Nd_Ce_)_Fe_B, 0_kOe) (0, 1) 1 <Class>_be_<Value> (_Nd_Ce_)_Fe_Co_B_+_0_%_ZrC_be_~_0_%_°C_-_1 ((_Nd_Ce_)_Fe_Co_B_+_0_%_ZrC, ~_0_%_°C_-_1) (0, 1) 1 <QNT>_of_<Value> |_β_|_of_0_%_/_°C (|_β_|, 0_%_/_°C) (0, 1) 1 <QNT>_of_<Shape> |_β_|_of_sample_diffusion_processed (|_β_|, sample_diffusion_processed) (1, 0) 1 <Value>_at_<Condition> ~_0_kA_m_-_1_at_room_temperature (~_0_kA_m_-_1, room_temperature) (0, 1) 1 <Value>_for_<Shape> ~_0_kJ_m_-_3_for_N_=_0_film (~_0_kJ_m_-_3, N_=_0_film) (1, 0) 1 <Value>_at_<Condition> ~_0_kOe_at_0_K (~_0_kOe, 0_K) (0, 1) 4 <Value>_at_<Condition> ~_0_MGOe_at_0_K (~_0_MGOe, 0_K) (0, 1) 3 <Value>_for_<Class> ~_0_MGOe_for_steel (~_0_MGOe, steel) (1, 0) 1 <Value>_at_<Condition> ~_0_T_at_0_K (~_0_T, 0_K) (0, 1) 1 <Value>_at_<Condition> ~_0_T_at_room_temperature (~_0_T, room_temperature) (0, 1) 1 <Value>_for_<Shape> 0_%_/_°C_for_diffusion_processed_sample (0_%_/_°C, diffusion_processed_sample) (1, 0) 1 <Value>_for_<Class> 0_%_/_°C_for_waste (0_%_/_°C, waste) (1, 0) 1 <Value>_for_<Class> 0_%_/_°C_for_waste_magnet (0_%_/_°C, waste_magnet) (1, 0) 1 <Value>_for_<Element> 0_%_/_K_for_x_=_0 (0_%_/_K, x_=_0) (1, 0) 2 <Value>_for_<Element> 0_%_°C_-_1_for_x_=_0 (0_%_°C_-_1, x_=_0) (1, 0) 2 <Value>_at_<Condition> 0_%_at_0_K (0_%, 0_K) (0, 1) 2 <Value>_for_<Shape> 0_%_for_soft_magnetic_phase (0_%, soft_magnetic_phase) (1, 0) 2 <Element>_of_<Element> 0_%_of_B (0_%, B) (0, 1) 3 <Element>_of_<Element> 0_%_of_Ce_substitution (0_%, Ce_substitution) (0, 1) 1 <Element>_of_<Element> 0_%_of_Nd (0_%, Nd) (0, 1) 2 <Element>_of_<Element> 0_%_of_α_Fe_grain (0_%, α_Fe_grain) (0, 1) 1 <Element>_of_<Element> 0_%_substitution_of_Dy (0_%_substitution, Dy) (0, 1) 1 <Value>_for_<Class> 0_°C_for_Nd_Co_B (0_°C, Nd_Co_B) (1, 0) 1 <Value>_for_<Class> 0_°C_for_Nd_Cu (0_°C, Nd_Cu) (1, 0) 1 <Value>_for_<Shape> 0_°C_for_this_sample (0_°C, this_sample) (1, 0) 1 <Value>_for_<Element> 0_°C_for_x_=_0 (0_°C, x_=_0) (1, 0) 2 <Value>_at_<Condition> 0_0_kA_/_m_at_room_temperature (0_0_kA_/_m, room_temperature) (0, 1) 2 <Value>_for_<Element> 0_0_MG_Oe_for_Nd (0_0_MG_Oe, Nd) (1, 0) 1 <Value>_for_<Class> 0_0_MG_Oe_for_Nd_Fe_Ti_M_B (0_0_MG_Oe, Nd_Fe_Ti_M_B) (1, 0) 1 <Value>_for_<Element> 0_0_MGOe_for_x_=_0 (0_0_MGOe, x_=_0) (1, 0) 1 <Value>_for_<Class> 0_0_T_for_Nd_Fe_Co_B (0_0_T, Nd_Fe_Co_B) (1, 0) 1 <Value>_for_<Shape> 0_0_T_for_Nd_Fe_Co_B_M_ribbon (0_0_T, Nd_Fe_Co_B_M_ribbon) (1, 0) 1 <Treatment>_and_<Treatment> 0_and_0_K_/_s (0, 0_K_/_s) (0, 1) 1 <Element>_of_<Element> 0_at_%_of_B (0_at_%, B) (0, 1) 1 <Element>_of_<Element> 0_at_._%_of_Nd (0_at_._%, Nd) (0, 1) 2 <Element>_of_<Element> 0_at_._%_of_V (0_at_._%, V) (0, 1) 1 <Value>_at_<Condition> 0_emu_/_g_at_room_temperature (0_emu_/_g, room_temperature) (0, 1) 1 <Value>_for_<Shape> 0_emu_/_g_for_sample (0_emu_/_g, sample) (1, 0) 1 <Value>_for_<Element> 0_for_Ti_substitution (0, Ti_substitution) (1, 0) 1 <Value>_for_<Element> 0_for_x_=_0 (0, x_=_0) (1, 0) 2 <Treatment>_and_<Treatment> 0_K_/_s_and_0_K_/_s (0_K_/_s, 0_K_/_s) (0, 1) 2 <Value>_for_<Class> 0_K_for_(_Nd_Ce_)_Fe_B (0_K, (_Nd_Ce_)_Fe_B) (1, 0) 1 <Value>_for_<Element> 0_K_for_Nd (0_K, Nd) (1, 0) 3 <Value>_for_<Element> 0_K_for_Si (0_K, Si) (1, 0) 1 <Value>_for_<Class> 0_K_for_SmCo (0_K, SmCo) (1, 0) 1 <Value>_for_<Element> 0_K_for_x_=_0 (0_K, x_=_0) (1, 0) 1 <Value>_at_<Condition> 0_kA_/_m_at_room_temperature (0_kA_/_m, room_temperature) (0, 1) 1 <Value>_for_<Shape> 0_kA_/_m_for_sample (0_kA_/_m, sample) (1, 0) 1 <Value>_for_<Element> 0_kA_/_m_for_sample_without_Hf (0_kA_/_m, sample_without_Hf) (1, 0) 1 <Value>_for_<Element> 0_kA_/_m_for_x_=_0 (0_kA_/_m, x_=_0) (1, 0) 2 <Value>_for_<Element> 0_kA_/_m_for_y_=_0 (0_kA_/_m, y_=_0) (1, 0) 4 <Value>_at_<Condition> 0_kA_m_-_1_at_0_°C (0_kA_m_-_1, 0_°C) (0, 1) 1 <Value>_for_<Shape> 0_kA_m_-_1_for_initial_sample (0_kA_m_-_1, initial_sample) (1, 0) 1 <Value>_for_<Shape> 0_kA_m_-_1_for_sample (0_kA_m_-_1, sample) (1, 0) 1 <Value>_for_<Class> 0_kG_for_(_Nd_Ce_)_Fe_Co_B_+_0_%_ZrC (0_kG, (_Nd_Ce_)_Fe_Co_B_+_0_%_ZrC) (1, 0) 1 <Value>_for_<Class> 0_kG_for_Ce_Fe_B (0_kG, Ce_Fe_B) (1, 0) 1 <Value>_for_<Class> 0_kG_for_magnet (0_kG, magnet) (1, 0) 1 <Value>_for_<Element> 0_kG_for_TM (0_kG, TM) (1, 0) 1 <Value>_for_<Element> 0_kG_for_x_=_0 (0_kG, x_=_0) (1, 0) 1 <Value>_for_<Element> 0_kG_for_y_=_0 (0_kG, y_=_0) (1, 0) 2 <Value>_at_<Condition> 0_kJ_/_m_3_at_0_K (0_kJ_/_m_3, 0_K) (0, 1) 1 <Value>_for_<Shape> 0_kJ_/_m_3_for_sample_diffusion_processed (0_kJ_/_m_3, sample_diffusion_processed) (1, 0) 1 <Value>_for_<Shape> 0_kJ_m_-_3_for_N_=_0 (0_kJ_m_-_3, N_=_0) (1, 0) 2 <Value>_at_<Condition> 0_kOe_at_room_temperature (0_kOe, room_temperature) (0, 1) 2 <Value>_for_<Shape> 0_kOe_for_EPD_coated_sample (0_kOe, EPD_coated_sample) (1, 0) 1 <Value>_for_<Class> 0_kOe_for_hot_pressed (0_kOe, hot_pressed) (1, 0) 1 <Value>_for_<Class> 0_kOe_for_magnet (0_kOe, magnet) (1, 0) 2 <Value>_for_<Shape> 0_kOe_for_melt_spun_Ce_Fe_B_powder (0_kOe, melt_spun_Ce_Fe_B_powder) (1, 0) 1 <Value>_for_<Class> 0_kOe_for_Nd_Fe_B (0_kOe, Nd_Fe_B) (1, 0) 1 <Value>_for_<Class> 0_kOe_for_respective_alloy (0_kOe, respective_alloy) (1, 0) 1 <Value>_for_<Shape> 0_kOe_for_ribbon (0_kOe, ribbon) (1, 0) 1 <Value>_for_<Class> 0_kOe_for_sintered_(_Nd_Ce_) (0_kOe, sintered_(_Nd_Ce_)) (1, 0) 1 <Value>_for_<Element> 0_kOe_for_Sm (0_kOe, Sm) (1, 0) 2 <Value>_for_<Class> 0_kOe_for_Sm_(_Co_Fe_Cu_Zr_) (0_kOe, Sm_(_Co_Fe_Cu_Zr_)) (1, 0) 2 <Value>_for_<Shape> 0_kOe_for_un_doped_sample (0_kOe, un_doped_sample) (1, 0) 1 <Value>_for_<Element> 0_kOe_for_x_=_0 (0_kOe, x_=_0) (1, 0) 12 <Value>_for_<Element> 0_kOe_for_y_=_0 (0_kOe, y_=_0) (1, 0) 2 <Condition>_of_<Condition> 0_kOe_of_applied_magnetic_field (0_kOe, applied_magnetic_field) (0, 1) 1 <Value>_for_<Element> 0_MG_Oe_for_Nd (0_MG_Oe, Nd) (1, 0) 1 <Value>_for_<Class> 0_MG_Oe_for_Nd_Fe_Ti_B (0_MG_Oe, Nd_Fe_Ti_B) (1, 0) 1 <Value>_for_<Element> 0_MG_Oe_for_x_=_0 (0_MG_Oe, x_=_0) (1, 0) 1 <Value>_at_<Condition>_=_<Condition> 0_MGOe_at_T_=_0_K (0_MGOe, T, 0_K) (0, 1), (1, 2) 1 <Value>_for_<Element> 0_MGOe_for_(_0_x_)_+_z_=_0 (0_MGOe, (_0_x_)_+_z_=_0) (1, 0) 2 <Value>_for_<Element> 0_MGOe_for_0_wt_%_Dy (0_MGOe, 0_wt_%_Dy) (1, 0) 1 <Value>_for_<Shape> 0_MGOe_for_0_wt_%_Dy_containing_{_[_(_Nd_(_Y_Dy_)_]_Co_Fe_B_}_+_Ti_C_ribbon (0_MGOe, 0_wt_%_Dy_containing_{_[_(_Nd_(_Y_Dy_)_]_Co_Fe_B_}_+_Ti_C_ribbon) (1, 0) 1 <Value>_for_<Element> 0_MGOe_for_Cr (0_MGOe, Cr) (1, 0) 1 <Value>_for_<Shape> 0_MGOe_for_Ga_added_ribbon (0_MGOe, Ga_added_ribbon) (1, 0) 1 <Value>_for_<Class> 0_MGOe_for_magnet (0_MGOe, magnet) (1, 0) 1 <Value>_for_<Element> 0_MGOe_for_Mn (0_MGOe, Mn) (1, 0) 2 <Value>_for_<Class> 0_MGOe_for_MnBi_magnet (0_MGOe, MnBi_magnet) (1, 0) 1 <Value>_for_<Shape> 0_MGOe_for_ribbon (0_MGOe, ribbon) (1, 0) 1 <Value>_for_<Shape> 0_MGOe_for_sample (0_MGOe, sample) (1, 0) 3 <Value>_for_<Element> 0_MGOe_for_Sm (0_MGOe, Sm) (1, 0) 1 <Value>_for_<Class> 0_MGOe_for_SmCo (0_MGOe, SmCo) (1, 0) 1 <Value>_for_<Element> 0_MGOe_for_x_=_0 (0_MGOe, x_=_0) (1, 0) 5 <Value>_for_<Element> 0_MGOe_for_y_=_0 (0_MGOe, y_=_0) (1, 0) 2 <Fabrication>_at_<Fabrication> 0_MPa_at_0_°C (0_MPa, 0_°C) (1, 0) 1 <Value>_for_<Element> 0_Oe_for_x_=_0 (0_Oe, x_=_0) (1, 0) 2 <Value>_at_<Condition> 0_T_at_0_K (0_T, 0_K) (0, 1) 2 <Value>_for_<Element> 0_T_for_Fe (0_T, Fe) (1, 0) 1 <Value>_for_<Class> 0_T_for_Fe_Co_alloy (0_T, Fe_Co_alloy) (1, 0) 1 <Value>_for_<Shape> 0_T_for_melt_spun_Pr_Fe_VB_C_ribbon (0_T, melt_spun_Pr_Fe_VB_C_ribbon) (1, 0) 1 <Value>_for_<Shape> 0_T_for_N_=_0 (0_T, N_=_0) (1, 0) 10 <Value>_for_<Class> 0_T_for_Nd_Cu (0_T, Nd_Cu) (1, 0) 1 <Value>_for_<Class> 0_T_for_Nd_Cu_alloy (0_T, Nd_Cu_alloy) (1, 0) 1 <Value>_for_<Class> 0_T_for_Nd_Fe_B (0_T, Nd_Fe_B) (1, 0) 2 <Value>_for_<Shape> 0_T_for_Nd_Fe_B_ribbon (0_T, Nd_Fe_B_ribbon) (1, 0) 1 <Value>_for_<Class> 0_T_for_Pr_Cu (0_T, Pr_Cu) (1, 0) 2 <Value>_for_<Class> 0_T_for_Pr_Fe_B (0_T, Pr_Fe_B) (1, 0) 3 <Value>_for_<Shape> 0_T_for_Pr_Fe_B_Cu_ribbon (0_T, Pr_Fe_B_Cu_ribbon) (1, 0) 1 <Value>_for_<Class> 0_T_for_Pr_Fe_Co_B (0_T, Pr_Fe_Co_B) (1, 0) 1 <Value>_for_<Element> 0_T_for_Sm (0_T, Sm) (1, 0) 2 <Value>_for_<Class> 0_T_for_Sm_Co (0_T, Sm_Co) (1, 0) 1 <Value>_for_<Element> 0_T_for_Sm_Co_R (0_T, Sm_Co_R) (1, 0) 1 <Value>_for_<Class> 0_T_for_Sm_Fe_C (0_T, Sm_Fe_C) (1, 0) 1 <Value>_for_<Shape> 0_T_for_Sm_Fe_Cu_Ga_C_ribbon (0_T, Sm_Fe_Cu_Ga_C_ribbon) (1, 0) 1 <Value>_for_<Class> 0_T_for_SmCo (0_T, SmCo) (1, 0) 1 <Value>_for_<Shape> 0_T_for_Ta_free_film (0_T, Ta_free_film) (1, 0) 1 <Element>_(_<Element>_) 0_wt_%_(_0_at_%_) (0_wt_%, 0_at_%) (0, 1) 1 <Value>_at_<Condition> 0_μ_at_0_°C (0_μ, 0_°C) (0, 1) 1 <QNT>_=_<Value> 4π_M_=_0_kG (4π_M, 0_kG) (0, 1) 6 <Value>_for_<Shape> about_0_%_for_N_=_0 (about_0_%, N_=_0) (1, 0) 2 <Value>_for_<Element> about_0_MGOe_for_Nd (about_0_MGOe, Nd) (1, 0) 1 <Value>_for_<Class> about_0_MGOe_for_Nd_Fe_B_sintered_magnet (about_0_MGOe, Nd_Fe_B_sintered_magnet) (1, 0) 1 <Value>_at_<Condition> about_0_T_at_0_°C (about_0_T, 0_°C) (0, 1) 2 <Value>_at_<Condition> about_0_T_at_room_temperature (about_0_T, room_temperature) (0, 1) 3 <Element>_of_<Element> addition_of_0_at_._%_V (addition, 0_at_._%_V) (0, 1) 2 <Element>_of_<Element> addition_of_Cu (addition, Cu) (0, 1) 2 <Element>_of_<Element> addition_of_heavy_rare_earth (addition, heavy_rare_earth) (0, 1) 1 <Element>_of_<Element> addition_of_Nd (addition, Nd) (0, 1) 3 <Element>_of_<Element> addition_of_Pr (addition, Pr) (0, 1) 1 <Element>_of_<Element> addition_of_Si (addition, Si) (0, 1) 1 <Element>_of_<Element> addition_of_Y (addition, Y) (0, 1) 1 <Element>_of_<Element> addition_of_Zr (addition, Zr) (0, 1) 1 <Element>_of_<Element> Al_content_of_x_=_0 (Al_content, x_=_0) (0, 1) 1 <Class>_be_<Value> alloy_be_0_%_°C_-_1 (alloy, 0_%_°C_-_1) (0, 1) 1 <Class>_be_<Value> alloy_be_0_T (alloy, 0_T) (0, 1) 1 <QNT>_of_<Value> ambient_coercivity_of_~_0_T (ambient_coercivity, ~_0_T) (0, 1) 1 <QNT>_to_<Value> ambient_coercivity_to_about_0_T (ambient_coercivity, about_0_T) (0, 1) 1 <Element>_of_<Element> amount_of_B (amount, B) (0, 1) 1 <Element>_of_<Element> amount_of_Ce (amount, Ce) (0, 1) 3 <Element>_of_<Element> amount_of_Co (amount, Co) (0, 1) 1 <Element>_of_<Element> amount_of_Cu (amount, Cu) (0, 1) 1 <Element>_of_<Element> amount_of_Dy_(_x_=_0_) (amount, Dy_(_x_=_0_)) (0, 1) 1 <Element>_of_<Element> amount_of_Dy_addition (amount, Dy_addition) (0, 1) 1 <Element>_of_<Element> amount_of_heavy_rare_earth_element (amount, heavy_rare_earth_element) (0, 1) 1 <Element>_of_<Element> amount_of_La (amount, La) (0, 1) 1 <Element>_of_<Element> amount_of_Nd_substituted (amount, Nd_substituted) (0, 1) 1 <Element>_of_<Element> amount_of_Pr (amount, Pr) (0, 1) 2 <Element>_of_<Element> amount_of_rare_earth (amount, rare_earth) (0, 1) 2 <Element>_of_<Element> amount_of_rare_earth_element (amount, rare_earth_element) (0, 1) 2 <Element>_of_<Element> amount_of_RE (amount, RE) (0, 1) 1 <Element>_of_<Element> amount_of_Sm (amount, Sm) (0, 1) 1 <Element>_of_<Element> amount_of_substitution (amount, substitution) (0, 1) 1 <Element>_of_<Element> amount_of_Zr (amount, Zr) (0, 1) 1 <Shape>_with_<QNT>_of_<Value> anisotropic_[_Nd_Fe_B_/_Ta_/_Fe_Co_/_Ta_]_nanocomposite_multilayer_film_with_coercivity_of_0_T (anisotropic_[_Nd_Fe_B_/_Ta_/_Fe_Co_/_Ta_]_nanocomposite_multilayer_film, coercivity, 0_T) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_) anisotropic_field_(_μ_H_) (anisotropic_field, μ_H) (0, 1) 1 <QNT>_(_<QNT>_) anisotropy_field_(_H_) (anisotropy_field, H) (0, 1) 1 <QNT>_=_<Value> anisotropy_field_H_=_0_kOe (anisotropy_field_H, 0_kOe) (0, 1) 2 <QNT>_=_<Value> anisotropy_field_H_=_0_T (anisotropy_field_H, 0_T) (0, 1) 1 <QNT>_of_<Class> anisotropy_field_H_of_Ce_Fe_B (anisotropy_field_H, Ce_Fe_B) (1, 0) 1 <QNT>_of_<Class> anisotropy_field_H_of_Dy_Fe_B (anisotropy_field_H, Dy_Fe_B) (1, 0) 1 <QNT>_of_<Shape> anisotropy_field_H_of_Dy_Fe_B_phase (anisotropy_field_H, Dy_Fe_B_phase) (1, 0) 1 <QNT>_of_<Class> anisotropy_field_H_of_Dy_substituted_R_Fe_B (anisotropy_field_H, Dy_substituted_R_Fe_B) (1, 0) 1 <QNT>_of_<Shape> anisotropy_field_H_of_Dy_substituted_R_Fe_B_phase (anisotropy_field_H, Dy_substituted_R_Fe_B_phase) (1, 0) 1 <QNT>_(_<Value>_) anisotropy_field_ha_(_0_kOe_) (anisotropy_field_ha, 0_kOe) (0, 1) 1 <QNT>_=_<Value> anisotropy_field_ha_=_0_kOe (anisotropy_field_ha, 0_kOe) (0, 1) 1 <QNT>_in_<Element> anisotropy_field_in_Nd (anisotropy_field, Nd) (1, 0) 1 <QNT>_in_<Class> anisotropy_field_in_Nd_Fe_B (anisotropy_field, Nd_Fe_B) (1, 0) 1 <QNT>_of_<Class> anisotropy_field_of_(_Nd_Dy_)_Fe_B (anisotropy_field, (_Nd_Dy_)_Fe_B) (1, 0) 2 <QNT>_of_<Value> anisotropy_field_of_about_0_T (anisotropy_field, about_0_T) (0, 1) 1 <QNT>_of_<QNT> anisotropy_field_of_D (anisotropy_field, D) (1, 0) 1 <QNT>_of_<Class> anisotropy_field_of_Dy_Fe_B (anisotropy_field, Dy_Fe_B) (1, 0) 1 <QNT>_of_<Class> anisotropy_field_of_Nd_Fe_B (anisotropy_field, Nd_Fe_B) (1, 0) 2 <QNT>_of_<Shape> anisotropy_field_of_Nd_Fe_B_matrix_phase (anisotropy_field, Nd_Fe_B_matrix_phase) (1, 0) 1 <QNT>_of_<Shape> anisotropy_field_of_Nd_Fe_B_phase (anisotropy_field, Nd_Fe_B_phase) (1, 0) 1 <QNT>_of_<Class> anisotropy_field_of_Pr_Fe_B (anisotropy_field, Pr_Fe_B) (1, 0) 1 <QNT>_of_<Shape> anisotropy_field_of_Pr_Fe_B_phase (anisotropy_field, Pr_Fe_B_phase) (1, 0) 1 <QNT>_of_<Class> anisotropy_field_of_R_Fe_B (anisotropy_field, R_Fe_B) (1, 0) 1 <QNT>_of_<Class> anisotropy_field_of_Sm_Co (anisotropy_field, Sm_Co) (1, 0) 2 <QNT>_of_<Class> anisotropy_field_of_Zr_Co (anisotropy_field, Zr_Co) (1, 0) 1 <QNT>_of_<Shape> anisotropy_field_of_Zr_Co_phase (anisotropy_field, Zr_Co_phase) (1, 0) 1 <Class>_be_<Value> annealed_alloy_be_0_kA_/_m (annealed_alloy, 0_kA_/_m) (0, 1) 1 <Treatment>_at_<Treatment> annealed_at_0_°C (annealed, 0_°C) (0, 1) 16 <Treatment>_at_<Treatment> annealed_at_0_°C_<_T_<_0_°C (annealed, 0_°C_<_T_<_0_°C) (0, 1) 1 <Treatment>_at_<Treatment> annealed_at_0_0_°C (annealed, 0_0_°C) (0, 1) 2 <Treatment>_at_<Treatment> annealed_at_0_K (annealed, 0_K) (0, 1) 3 <Treatment>_at_<Treatment> annealed_at_various_temperature (annealed, various_temperature) (0, 1) 3 <Treatment>_(_<Treatment>_) annealing_temperature_(_T_) (annealing_temperature, T) (0, 1) 1 <Treatment>_to_<Treatment> annealing_time_to_0_h (annealing_time, 0_h) (0, 1) 1 <Condition>_of_<Condition> applied_field_of_0_kOe (applied_field, 0_kOe) (0, 1) 1 <Condition>_of_<Condition> applied_field_of_0_T (applied_field, 0_T) (0, 1) 2 <Condition>_of_<Condition> applied_magnetic_field_of_0_T (applied_magnetic_field, 0_T) (0, 1) 1 <Value>_at_<Condition> approximately_0_MA_/_m_at_room_temperature (approximately_0_MA_/_m, room_temperature) (0, 1) 2 <Value>_at_<Condition> around_0_T_at_operation_temperature (around_0_T, operation_temperature) (0, 1) 1 <Value>_at_<Condition> around_0_T_at_room_temperature (around_0_T, room_temperature) (0, 1) 1 <Class>_be_<Value> as_hot_deformed_magnet_be_0_T (as_hot_deformed_magnet, 0_T) (0, 1) 1 <QNT>_(_<Value>_) B_(_0_K_) (B, 0_K) (0, 1) 3 <QNT>_(_<Value>_) B_(_0_kOe_) (B, 0_kOe) (0, 1) 1 <QNT>_(_<QNT>_=_<Value>_) B_(_hci_=_0_kOe_) (B, hci, 0_kOe) (0, 1), (1, 2) 2 <QNT>_~_<Value> B_~_0_kG (B, 0_kG) (0, 1) 1 <QNT>_of_<Shape> B_and_(_BH_)_of_Nd_Pr_Fe_B_melt_spun_powder (B_and_(_BH_), Nd_Pr_Fe_B_melt_spun_powder) (1, 0) 1 <QNT>_at_<Condition> B_at_0_K (B, 0_K) (0, 1) 2 <QNT>_at_<Condition> B_at_T (B, T) (0, 1) 1 <QNT>_be_<Value> B_be_0_kOe (B, 0_kOe) (0, 1) 1 <QNT>_for_<Class> B_for_Nd_Fe_B (B, Nd_Fe_B) (1, 0) 1 <QNT>_in_<Class> B_in_Fe_Nd_B (B, Fe_Nd_B) (1, 0) 1 <QNT>_in_<Class> B_in_Nd_Fe_Al (B, Nd_Fe_Al) (1, 0) 1 <QNT>_to_<Value> B_to_0_T (B, 0_T) (0, 1) 2 <QNT>_up_to_<Value> B_up_to_0_K (B, 0_K) (0, 1) 1 <Element>_with_<QNT>_of_<Value> B_with_coercivity_of_0_T (B, coercivity, 0_T) (0, 1), (1, 2) 1 <QNT>_=_<Value> BH_=_0_kJ_/_m_3 (BH, 0_kJ_/_m_3) (0, 1) 1 <QNT>_of_<Class> Br_of_(_Nd_Ce_)_Fe_Co_B (Br, (_Nd_Ce_)_Fe_Co_B) (1, 0) 1 <Element>_(_<Element>_) Ce_(_0_wt_._%_) (Ce, 0_wt_._%) (0, 1) 1 <Element>_of_<Element> Ce_content_of_0_% (Ce_content, 0_%) (0, 1) 1 <Class>_be_<Value> Ce_Fe_B_be_0_T (Ce_Fe_B, 0_T) (0, 1) 1 <Element>_(_<Element>_) Co_(_0_wt_%_0_wt_%_) (Co, 0_wt_%_0_wt_%) (0, 1) 1 <Element>_(_<Element>_) Co_(_0_wt_._%_) (Co, 0_wt_._%) (0, 1) 1 <QNT>_(_<Value>_) coercive_field_(_~_0_MA_/_m_) (coercive_field, ~_0_MA_/_m) (0, 1) 1 <QNT>_be_<QNT> coercive_field_be_μ_H (coercive_field, μ_H) (0, 1) 1 <QNT>_of_<Value> coercive_field_of_~_0_T (coercive_field, ~_0_T) (0, 1) 1 <QNT>_of_<Value> coercive_field_of_0_kA_/_m (coercive_field, 0_kA_/_m) (0, 1) 1 <QNT>_of_<Value> coercive_field_of_0_T (coercive_field, 0_T) (0, 1) 1 <QNT>_of_<Shape> coercive_field_of_grain (coercive_field, grain) (1, 0) 1 <QNT>_of_<QNT> coercive_field_of_H (coercive_field, H) (0, 1) 1 <QNT>_of_<QNT>_=_<Value> coercive_field_of_H_=_0_kA_/_m (coercive_field, H, 0_kA_/_m) (0, 1), (1, 2) 1 <QNT>_of_<Class> coercive_field_of_Nd_Cu (coercive_field, Nd_Cu) (1, 0) 1 <QNT>_of_<Shape> coercive_field_of_Nd_Cu_infiltrated_sample (coercive_field, Nd_Cu_infiltrated_sample) (1, 0) 1 <QNT>_up_to_<Value> coercive_field_up_to_0_T (coercive_field, 0_T) (0, 1) 1 <QNT>_(_<Value>_) coercivity_(_0_0_kA_/_m_) (coercivity, 0_0_kA_/_m) (0, 1) 1 <QNT>_(_<Value>_) coercivity_(_0_kA_/_m_) (coercivity, 0_kA_/_m) (0, 1) 1 <QNT>_(_<Value>_) coercivity_(_0_kOe_) (coercivity, 0_kOe) (0, 1) 3 <QNT>_(_<Value>_) coercivity_(_0_T_) (coercivity, 0_T) (0, 1) 1 <QNT>_(_<QNT>_)_of_<Value> coercivity_(_H_)_of_0_kOe (coercivity, H, 0_kOe) (0, 1), (1, 2) 3 <QNT>_(_<QNT>_)_of_<Value>_(_<Value>_) coercivity_(_H_)_of_0_kOe_(_0_kA_/_m_) (coercivity, H, 0_kOe, 0_kA_/_m) (0, 1), (1, 2), (2, 3) 1 <QNT>_(_<QNT>_)_of_<Value> coercivity_(_H_)_of_0_T (coercivity, H, 0_T) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_=_<Value>_) coercivity_(_H_=_0_kA_m_-_1_) (coercivity, H, 0_kA_m_-_1) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_=_<Value>_) coercivity_(_H_=_0_kOe_) (coercivity, H, 0_kOe) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_) coercivity_(_β_) (coercivity, β) (0, 1) 8 <QNT>_(_<QNT>_) coercivity_(_μ_H_) (coercivity, μ_H) (0, 1) 3 <QNT>_at_<Condition> coercivity_at_0_°C (coercivity, 0_°C) (0, 1) 2 <QNT>_at_<Condition> coercivity_at_operation_temperature (coercivity, operation_temperature) (0, 1) 1 <QNT>_at_<Condition> coercivity_at_room_temperature (coercivity, room_temperature) (0, 1) 1 <QNT>_at_<Condition> coercivity_at_temperature_range (coercivity, temperature_range) (0, 1) 1 <QNT>_at_<Condition> coercivity_at_temperature_T (coercivity, temperature_T) (0, 1) 2 <QNT>_be_<Value> coercivity_be_0_kOe (coercivity, 0_kOe) (0, 1) 2 <QNT>_be_<Value> coercivity_be_0_T (coercivity, 0_T) (0, 1) 1 <QNT>_be_<Value> coercivity_be_approximately_0_kA_/_m (coercivity, approximately_0_kA_/_m) (0, 1) 1 <QNT>_decreased_from_<Value>_for_<Element>_to_<Value>_for_<Element> coercivity_decreased_from_0_kA_/_m_for_y_=_0_to_0_kA_/_m_for_y_=_0 (coercivity, 0_kA_/_m, y_=_0, 0_kA_/_m, y_=_0) (0, 1), (1, 2), (0, 3), (3, 4) 2 <QNT>_to_<Value> coercivity_decreases_to_0_kOe (coercivity_decreases, 0_kOe) (0, 1) 2 <QNT>_for_<Class> coercivity_for_(_Nd_Ce_)_Fe_Co_B (coercivity, (_Nd_Ce_)_Fe_Co_B) (1, 0) 1 <QNT>_for_<Shape> coercivity_for_(_Nd_Ce_)_Fe_Co_B_ribbon (coercivity, (_Nd_Ce_)_Fe_Co_B_ribbon) (1, 0) 1 <QNT>_for_<Class> coercivity_for_(_Nd_Dy_)_Fe_B_permanent_magnet (coercivity, (_Nd_Dy_)_Fe_B_permanent_magnet) (1, 0) 1 <QNT>_for_<Class> coercivity_for_diffusion_processed_magnet (coercivity, diffusion_processed_magnet) (1, 0) 1 <QNT>_for_<Class> coercivity_for_Fe_Nd_B_M (coercivity, Fe_Nd_B_M) (1, 0) 1 <QNT>_for_<Class> coercivity_for_hot_deformed_magnet (coercivity, hot_deformed_magnet) (1, 0) 1 <QNT>_for_<Class> coercivity_for_Pr_Cu_diffusion_processed_magnet (coercivity, Pr_Cu_diffusion_processed_magnet) (1, 0) 1 <QNT>_for_<Shape> coercivity_for_sample (coercivity, sample) (1, 0) 1 <QNT>_for_<Class> coercivity_for_sintered_magnet (coercivity, sintered_magnet) (1, 0) 1 <QNT>_for_<Class> coercivity_for_Sm_Zr_(_Fe_Co_)_Ti_magnet (coercivity, Sm_Zr_(_Fe_Co_)_Ti_magnet) (1, 0) 1 <QNT>_for_<Class> coercivity_for_SmFe (coercivity, SmFe) (1, 0) 1 <QNT>_for_<Element> coercivity_for_x_=_0 (coercivity, x_=_0) (1, 0) 1 <QNT>_<_<Value> coercivity_H_<_0_kOe (coercivity_H, 0_kOe) (0, 1) 1 <QNT>_=_<Value> coercivity_H_=_0_kA_/_m (coercivity_H, 0_kA_/_m) (0, 1) 1 <QNT>_=_<Value> coercivity_H_=_0_kOe (coercivity_H, 0_kOe) (0, 1) 1 <QNT>_for_<Class> coercivity_H_for_M (coercivity_H, M) (1, 0) 1 <QNT>_of_<Value> coercivity_H_of_0_kA_/_m (coercivity_H, 0_kA_/_m) (0, 1) 1 <QNT>_of_<Value> coercivity_H_of_0_kOe (coercivity_H, 0_kOe) (0, 1) 2 <QNT>_of_<Class> coercivity_H_of_Nd_Fe_B (coercivity_H, Nd_Fe_B) (1, 0) 1 <QNT>_of_<Shape> coercivity_H_of_Nd_Fe_B_flake (coercivity_H, Nd_Fe_B_flake) (1, 0) 1 <QNT>_in_<Element> coercivity_in_Fe (coercivity, Fe) (1, 0) 1 <QNT>_in_<Class> coercivity_in_Fe_B_Nd_Gd_Nb_Si_magnet (coercivity, Fe_B_Nd_Gd_Nb_Si_magnet) (1, 0) 1 <QNT>_in_<Shape> coercivity_in_Fe_B_Nd_Gd_Nb_Si_magnetic_rod (coercivity, Fe_B_Nd_Gd_Nb_Si_magnetic_rod) (1, 0) 1 <QNT>_in_<Class> coercivity_in_GBDP_magnet (coercivity, GBDP_magnet) (1, 0) 1 <QNT>_in_<Shape> coercivity_in_low_Ce_Nd_Ce_Fe_B_ribbon (coercivity, low_Ce_Nd_Ce_Fe_B_ribbon) (1, 0) 1 <QNT>_in_<Class> coercivity_in_magnet (coercivity, magnet) (1, 0) 1 <QNT>_in_<Class> coercivity_in_nanocomposite (coercivity, nanocomposite) (1, 0) 1 <QNT>_in_<Element> coercivity_in_Nd (coercivity, Nd) (1, 0) 1 <QNT>_in_<Class> coercivity_in_Nd_Fe_B (coercivity, Nd_Fe_B) (1, 0) 1 <QNT>_in_<Shape> coercivity_in_Nd_Fe_B_film (coercivity, Nd_Fe_B_film) (1, 0) 1 <QNT>_in_<Element> coercivity_in_Pr (coercivity, Pr) (1, 0) 2 <QNT>_in_<Class> coercivity_in_Pr_Cu (coercivity, Pr_Cu) (1, 0) 2 <QNT>_in_<Shape> coercivity_in_Pr_Cu_diffusion_processed_sample (coercivity, Pr_Cu_diffusion_processed_sample) (1, 0) 2 <QNT>_in_<Class> coercivity_in_recycled_magnet (coercivity, recycled_magnet) (1, 0) 1 <QNT>_in_<Element> coercivity_in_TM (coercivity, TM) (1, 0) 1 <QNT>_in_<Class> coercivity_in_Zr_Co (coercivity, Zr_Co) (1, 0) 1 <QNT>_be_<Value> coercivity_increase_be_about_0_kA_/_m (coercivity_increase, about_0_kA_/_m) (0, 1) 1 <QNT>_be_<Value> coercivity_increase_be_about_0_kOe (coercivity_increase, about_0_kOe) (0, 1) 1 <QNT>_increased_from_<Value>_for_<Shape>_to_<Value>_for_<Shape> coercivity_increased_from_0_kA_m_-_1_for_initial_sample_to_0_kA_m_-_1_for_sample (coercivity, 0_kA_m_-_1, initial_sample, 0_kA_m_-_1, sample) (0, 1), (1, 2), (0, 3), (3, 4) 1 <QNT>_initially_increases_from_<Value>_to_<Value> coercivity_initially_increases_from_0_kA_/_m_to_0_kA_/_m (coercivity, 0_kA_/_m, 0_kA_/_m) (0, 1), (0, 2) 1 <QNT>_of_<Class> coercivity_of_(_Nd_Dy_)_Fe_B (coercivity, (_Nd_Dy_)_Fe_B) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_(_Nd_Dy_)_Fe_B_nanoparticle (coercivity, (_Nd_Dy_)_Fe_B_nanoparticle) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_[_(_Nd_Pr_)_Ce_]_Fe_B_(_x_=_0_)_powder (coercivity, [_(_Nd_Pr_)_Ce_]_Fe_B_(_x_=_0_)_powder) (1, 0) 1 <QNT>_of_<Value> coercivity_of_~_0_kA_m_-_1 (coercivity, ~_0_kA_m_-_1) (0, 1) 1 <QNT>_of_<Value> coercivity_of_~_0_T (coercivity, ~_0_T) (0, 1) 2 <QNT>_of_<Value> coercivity_of_0_0_T (coercivity, 0_0_T) (0, 1) 2 <QNT>_of_<Value>_be_obtained_at_<Condition> coercivity_of_0_kA_/_m_be_obtained_at_0_K (coercivity, 0_kA_/_m, 0_K) (0, 1), (1, 2) 1 <QNT>_of_<Value> coercivity_of_0_kA_m_-_1 (coercivity, 0_kA_m_-_1) (0, 1) 1 <QNT>_of_<Value> coercivity_of_0_Oe (coercivity, 0_Oe) (0, 1) 2 <QNT>_of_<Value> coercivity_of_about_0_kA_/_m (coercivity, about_0_kA_/_m) (0, 1) 1 <QNT>_of_<Class> coercivity_of_alloy (coercivity, alloy) (1, 0) 3 <QNT>_of_<Shape> coercivity_of_alloy_powder (coercivity, alloy_powder) (1, 0) 1 <QNT>_of_<Class> coercivity_of_annealed_x_=_0_alloy (coercivity, annealed_x_=_0_alloy) (1, 0) 1 <QNT>_of_<Value> coercivity_of_approximately_0_MA_/_m (coercivity, approximately_0_MA_/_m) (0, 1) 1 <QNT>_of_<Class> coercivity_of_bulk_material (coercivity, bulk_material) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Co_Zr_B_nanocomposite (coercivity, Co_Zr_B_nanocomposite) (1, 0) 2 <QNT>_of_<Class> coercivity_of_DyF_EPD_coated_magnet (coercivity, DyF_EPD_coated_magnet) (1, 0) 2 <QNT>_of_<Shape> coercivity_of_exchange_coupled_Nd_Fe_B_/_Fe_multilayer_thin_film (coercivity, exchange_coupled_Nd_Fe_B_/_Fe_multilayer_thin_film) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Fe_Nd_B (coercivity, Fe_Nd_B) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Fe_Nd_B_alloy (coercivity, Fe_Nd_B_alloy) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Fe_Nd_B_V (coercivity, Fe_Nd_B_V) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Fe_Pt_B (coercivity, Fe_Pt_B) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_film (coercivity, film) (1, 0) 5 <QNT>_of_<Class> coercivity_of_GBDP_magnet (coercivity, GBDP_magnet) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_grain (coercivity, grain) (1, 0) 2 <QNT>_of_<QNT> coercivity_of_H (coercivity, H) (0, 1) 14 <QNT>_of_<QNT>_=_<Value> coercivity_of_H_=_0_kA_/_m (coercivity, H, 0_kA_/_m) (0, 1), (1, 2) 1 <QNT>_of_<QNT>_=_<Value> coercivity_of_H_=_0_kA_m_-_1 (coercivity, H, 0_kA_m_-_1) (0, 1), (1, 2) 1 <QNT>_of_<QNT>_=_<Value> coercivity_of_H_=_0_kOe (coercivity, H, 0_kOe) (0, 1), (1, 2) 1 <QNT>_of_<QNT> coercivity_of_ha (coercivity, ha) (0, 1) 1 <QNT>_of_<Class> coercivity_of_hot_deformed_Nd_Fe_B_magnet (coercivity, hot_deformed_Nd_Fe_B_magnet) (1, 0) 3 <QNT>_of_<Class> coercivity_of_hot_pressed (coercivity, hot_pressed) (1, 0) 1 <QNT>_of_<Class> coercivity_of_hot_pressed_magnet (coercivity, hot_pressed_magnet) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_hot_pressed_sample (coercivity, hot_pressed_sample) (1, 0) 1 <QNT>_of_<QNT> coercivity_of_M (coercivity, M) (1, 0) 2 <QNT>_of_<Class> coercivity_of_M_type_hexaferrite (coercivity, M_type_hexaferrite) (1, 0) 1 <QNT>_of_<Class> coercivity_of_melt_spun_Nd_Fe_B (coercivity, melt_spun_Nd_Fe_B) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_melt_spun_Nd_Fe_B_powder (coercivity, melt_spun_Nd_Fe_B_powder) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_melt_spun_ribbon (coercivity, melt_spun_ribbon) (1, 0) 2 <QNT>_of_<Class> coercivity_of_melt_spun_SmCo_ribbon (coercivity, melt_spun_SmCo_ribbon) (1, 0) 1 <QNT>_of_<Value> coercivity_of_more_than_0_kOe (coercivity, more_than_0_kOe) (0, 1) 1 <QNT>_of_<Class> coercivity_of_nanocomposite (coercivity, nanocomposite) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Nd_Dy_Al_diffusion_processed_magnet (coercivity, Nd_Dy_Al_diffusion_processed_magnet) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Nd_Fe (coercivity, Nd_Fe) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Nd_Fe_B (coercivity, Nd_Fe_B) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Nd_Fe_B_/_α_Fe_nanocomposite_magnet (coercivity, Nd_Fe_B_/_α_Fe_nanocomposite_magnet) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Nd_Fe_B_Hf (coercivity, Nd_Fe_B_Hf) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Nd_Fe_B_Hf_alloy (coercivity, Nd_Fe_B_Hf_alloy) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_Nd_Fe_B_Hf_melt_spun_ribbon (coercivity, Nd_Fe_B_Hf_melt_spun_ribbon) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Nd_Fe_B_hot_deformed_magnet (coercivity, Nd_Fe_B_hot_deformed_magnet) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Nd_Fe_B_magnet (coercivity, Nd_Fe_B_magnet) (1, 0) 3 <QNT>_of_<Class> coercivity_of_Nd_Fe_B_permanent_magnet (coercivity, Nd_Fe_B_permanent_magnet) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Nd_Fe_B_sintered_magnet (coercivity, Nd_Fe_B_sintered_magnet) (1, 0) 4 <QNT>_of_<Class> coercivity_of_Nd_Fe_Co_B_Ga (coercivity, Nd_Fe_Co_B_Ga) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_Nd_Fe_Co_B_Ga_powder (coercivity, Nd_Fe_Co_B_Ga_powder) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_Nd_Fe_MCB_ribbon (coercivity, Nd_Fe_MCB_ribbon) (1, 0) 1 <QNT>_of_<Class> coercivity_of_NdFeB_sintered_magnet (coercivity, NdFeB_sintered_magnet) (1, 0) 1 <QNT>_of_<Class> coercivity_of_original_N48M_magnet (coercivity, original_N48M_magnet) (1, 0) 1 <QNT>_of_<Value> coercivity_of_over_0_T (coercivity, over_0_T) (0, 1) 1 <QNT>_of_<Shape> coercivity_of_particle (coercivity, particle) (1, 0) 1 <QNT>_of_<Class> coercivity_of_permanent_magnet (coercivity, permanent_magnet) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_powder (coercivity, powder) (1, 0) 4 <QNT>_of_<Class> coercivity_of_Pr_Co_C (coercivity, Pr_Co_C) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_Pr_Co_C_ribbon (coercivity, Pr_Co_C_ribbon) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Pr_Fe_B (coercivity, Pr_Fe_B) (1, 0) 1 <QNT>_of_<Class> coercivity_of_R_Fe_B (coercivity, R_Fe_B) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_sample (coercivity, sample) (1, 0) 9 <QNT>_of_<Shape> coercivity_of_sample_SrAl_Fe_O (coercivity, sample_SrAl_Fe_O) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_single_phase (coercivity, single_phase) (1, 0) 1 <QNT>_of_<Class> coercivity_of_sintered_Nd_Fe_B_magnet (coercivity, sintered_Nd_Fe_B_magnet) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Sm_Fe_Al (coercivity, Sm_Fe_Al) (1, 0) 1 <QNT>_of_<Class> coercivity_of_Sm_Fe_C (coercivity, Sm_Fe_C) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_Sm_Fe_Cu_Ga_C_ribbon (coercivity, Sm_Fe_Cu_Ga_C_ribbon) (1, 0) 1 <QNT>_of_<Class> coercivity_of_SrAl_Fe_O (coercivity, SrAl_Fe_O) (1, 0) 2 <QNT>_of_<Shape> coercivity_of_surface (coercivity, surface) (1, 0) 1 <QNT>_of_<Shape> coercivity_of_this_sample (coercivity, this_sample) (1, 0) 1 <QNT>_of_<Class> coercivity_of_x_=_0_alloy (coercivity, x_=_0_alloy) (1, 0) 1 <QNT>_of_<QNT> coercivity_of_α (coercivity, α) (0, 1) 1 <QNT>_of_<Element> coercivity_of_α_Fe (coercivity, α_Fe) (1, 0) 1 <QNT>_of_<Class> coercivity_of_α_Fe_/_Nd_Fe_B_nanocomposite_magnet (coercivity, α_Fe_/_Nd_Fe_B_nanocomposite_magnet) (1, 0) 1 <QNT>_of_<QNT> coercivity_of_μ_H (coercivity, μ_H) (0, 1) 1 <QNT>_of_<QNT>_=_<Value> coercivity_of_μ_H_=_0_T (coercivity, μ_H, 0_T) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_) coercivity_temperature_coefficient_(_β_) (coercivity_temperature_coefficient, β) (0, 1) 1 <QNT>_(_<QNT>_)_of_<Class>_be_<Value> coercivity_temperature_coefficient_(_β_)_of_recycled_magnet_be_0_%_/_K (coercivity_temperature_coefficient, β, recycled_magnet, 0_%_/_K) (0, 1), (2, 0), (1, 3) 1 <QNT>_of_<Value> coercivity_temperature_coefficient_of_0_%_/_K (coercivity_temperature_coefficient, 0_%_/_K) (0, 1) 1 <QNT>_=_<Value> coercivity_temperature_coefficient_β_=_0_%_/_°C (coercivity_temperature_coefficient_β, 0_%_/_°C) (0, 1) 1 <QNT>_to_<Value> coercivity_to_0_kA_/_m (coercivity, 0_kA_/_m) (0, 1) 1 <QNT>_to_<Value> coercivity_to_0_kOe (coercivity, 0_kOe) (0, 1) 1 <QNT>_up_to_<Value> coercivity_up_to_0_T (coercivity, 0_T) (0, 1) 2 <QNT>_be_<Value> coercivity_value_be_low_than_0_kOe (coercivity_value, low_than_0_kOe) (0, 1) 1 <QNT>_of_<Value> coercivity_value_of_0_kOe (coercivity_value, 0_kOe) (0, 1) 1 <QNT>_of_<Value> coercivity_value_of_0_T (coercivity_value, 0_T) (0, 1) 2 <QNT>_of_<Class> coercivity_value_of_Pr_Fe_B (coercivity_value, Pr_Fe_B) (1, 0) 1 <QNT>_of_<Shape> coercivity_value_of_Pr_Fe_B_/_α_Fe_film (coercivity_value, Pr_Fe_B_/_α_Fe_film) (1, 0) 1 <QNT>_of_<Shape> coercivity_value_of_sample (coercivity_value, sample) (1, 0) 1 <QNT>_of_<Shape> coercivity_value_of_thick_film (coercivity_value, thick_film) (1, 0) 1 <QNT>_to_<Value> coercivity_value_to_0_T (coercivity_value, 0_T) (0, 1) 1 <QNT>_up_to_<Value> coercivity_value_up_to_0_kA_/_m (coercivity_value, 0_kA_/_m) (0, 1) 2 <Element>_(_<Element>_) Cu_(_0_at_._%_) (Cu, 0_at_._%) (0, 1) 1 <Element>_(_<Element>_) Cu_content_(_0_at_._%_) (Cu_content, 0_at_._%) (0, 1) 1 <QNT>_(_<Value>_) curie_temperature_(_0_°C_) (curie_temperature, 0_°C) (0, 1) 1 <QNT>_for_<Class> curie_temperature_for_Nd_Fe_B (curie_temperature, Nd_Fe_B) (1, 0) 1 <QNT>_for_<Shape> curie_temperature_for_Nd_Fe_B_sample_0 (curie_temperature, Nd_Fe_B_sample_0) (1, 0) 1 <QNT>_in_<Class> curie_temperature_in_Nd_Ce_Fe_B_alloy (curie_temperature, Nd_Ce_Fe_B_alloy) (1, 0) 1 <QNT>_of_<Value> curie_temperature_of_0_°C (curie_temperature, 0_°C) (0, 1) 2 <QNT>_of_<Value> curie_temperature_of_0_K (curie_temperature, 0_K) (0, 1) 3 <QNT>_of_<Class> curie_temperature_of_Fe (curie_temperature, Fe) (1, 0) 1 <QNT>_of_<Shape> curie_temperature_of_GB_phase (curie_temperature, GB_phase) (1, 0) 1 <QNT>_of_<Class> curie_temperature_of_magnet (curie_temperature, magnet) (1, 0) 2 <QNT>_of_<Shape> curie_temperature_of_magnetic_phase (curie_temperature, magnetic_phase) (1, 0) 1 <QNT>_of_<Class> curie_temperature_of_Nd_Fe_B_magnet (curie_temperature, Nd_Fe_B_magnet) (1, 0) 1 <QNT>_of_<Shape> curie_temperature_of_phase (curie_temperature, phase) (1, 0) 1 <QNT>_of_<Value> curie_temperature_of_T (curie_temperature, T) (0, 1) 2 <QNT>_of_<QNT>_=_<Value> curie_temperature_of_T_=_0_K (curie_temperature, T, 0_K) (0, 1), (1, 2) 2 <QNT>_of_<Class> curie_temperature_T_of_(_Nd_Ce_)_Fe_Co_B (curie_temperature_T, (_Nd_Ce_)_Fe_Co_B) (1, 0) 1 <QNT>_of_<Shape> curie_temperature_T_of_(_Nd_Ce_)_Fe_Co_B_melt_spun_ribbon (curie_temperature_T, (_Nd_Ce_)_Fe_Co_B_melt_spun_ribbon) (1, 0) 1 <QNT>_to_<Value> curie_temperature_T_to_0_°C (curie_temperature_T, 0_°C) (0, 1) 1 <QNT>_of_<Class> D_of_Nd_Fe_B (D, Nd_Fe_B) (1, 0) 1 <QNT>_of_<Class> decrease_in_remanence_of_magnet (decrease_in_remanence, magnet) (1, 0) 1 <Fabrication>_at_<Fabrication> deposited_at_0_°C (deposited, 0_°C) (0, 1) 1 <Fabrication>_at_<Fabrication> deposited_at_substrate_temperature (deposited, substrate_temperature) (0, 1) 1 <Treatment>_at_<Treatment> deposition_annealing_at_0_°C (deposition_annealing, 0_°C) (0, 1) 1 <QNT>_for_<Element> diffusion_coefficient_for_Dy (diffusion_coefficient, Dy) (1, 0) 1 <QNT>_of_<QNT> diffusion_coefficient_of_D (diffusion_coefficient, D) (0, 1) 2 <Treatment>_at_<Treatment> diffusion_process_at_0_°C (diffusion_process, 0_°C) (0, 1) 2 <Treatment>_to_<Treatment> diffusion_time_to_0_h (diffusion_time, 0_h) (0, 1) 1 <Treatment>_at_<Treatment> diffusion_treatment_at_0_°C (diffusion_treatment, 0_°C) (0, 1) 1 <Element>_of_<Element> distribution_of_0_wt_._%_Dy (distribution, 0_wt_._%_Dy) (0, 1) 1 <Element>_of_<Element> distribution_of_Ce (distribution, Ce) (0, 1) 4 <Element>_of_<Element> distribution_of_Co (distribution, Co) (0, 1) 1 <Element>_of_<Element> distribution_of_Dy (distribution, Dy) (0, 1) 5 <Element>_of_<Element> distribution_of_Dy_element (distribution, Dy_element) (0, 1) 3 <Element>_of_<Element> distribution_of_Nd_content (distribution, Nd_content) (0, 1) 1 <Element>_of_<Element> distribution_of_Nd_rich (distribution, Nd_rich) (0, 1) 6 <Element>_of_<Element> distribution_of_RE (distribution, RE) (0, 1) 1 <Element>_of_<Element> distribution_of_RE_rich (distribution, RE_rich) (0, 1) 1 <Element>_of_<Element> distribution_of_Tb (distribution, Tb) (0, 1) 1 <Element>_of_<Element> distribution_of_Zr (distribution, Zr) (0, 1) 1 <Element>_of_<Element> distribution_of_α_Fe (distribution, α_Fe) (0, 1) 2 <Class>_be_<Value> DQ_alloy_be_0_kA_/_m (DQ_alloy, 0_kA_/_m) (0, 1) 1 <Element>_with_<QNT>_of_<Value> Dy_addition_with_remanence_of_0_T (Dy_addition, remanence, 0_T) (0, 1), (1, 2) 1 <Element>_of_<Element> Dy_content_of_~_0_at_._% (Dy_content, ~_0_at_._%) (0, 1) 1 <Element>_of_<Element> Dy_content_of_x_=_0 (Dy_content, x_=_0) (0, 1) 1 <Treatment>_and_<Treatment> Dy_Cu_and_Pr_Cu_alloy (Dy_Cu, Pr_Cu_alloy) (0, 1) 1 <Treatment>_and_<Treatment> Dy_Cu_and_Pr_Dy_Cu_ribbon (Dy_Cu, Pr_Dy_Cu_ribbon) (0, 1) 3 <Class>_be_<Value> Dy_Fe_B_be_0_T (Dy_Fe_B, 0_T) (0, 1) 1 <Class>_with_<QNT>_of_<Value> Dy_free_Nd_Pr_B_Cu_Al_Co_Fe_at_%_(_0_wt_%_RE_content_)_magnet_with_high_coercivity_of_0_kOe (Dy_free_Nd_Pr_B_Cu_Al_Co_Fe_at_%_(_0_wt_%_RE_content_)_magnet, high_coercivity, 0_kOe) (0, 1), (1, 2) 1 <Shape>_(_<Shape>_) Dy_interlayer_(_0_nm_<_t_<_0_nm_) (Dy_interlayer, 0_nm_<_t_<_0_nm) (0, 1) 1 <Class>_be_<Value> Dy_substituted_alloy_be_0_kA_/_m (Dy_substituted_alloy, 0_kA_/_m) (0, 1) 1 <Element>_(_<Element>_) Dy_substitution_(_0_wt_._%_) (Dy_substitution, 0_wt_._%) (0, 1) 1 <QNT>_of_<Value> energy_density_of_about_0_kJ_/_m_3 (energy_density, about_0_kJ_/_m_3) (0, 1) 1 <QNT>_(_<QNT>_=_<Value>_) energy_product_(_(_BH_)_=_0_kJ_/_m_3_) (energy_product, (_BH_), 0_kJ_/_m_3) (0, 1), (1, 2) 1 <QNT>_=_<Value> energy_product_(_BH_)_=_0_MGOe (energy_product_(_BH_), 0_MGOe) (0, 1) 1 <QNT>_of_<Value> energy_product_(_BH_)_of_0_kJ_m_-_3 (energy_product_(_BH_), 0_kJ_m_-_3) (0, 1) 1 <QNT>_be_<Value> energy_product_be_0_T (energy_product, 0_T) (0, 1) 1 <QNT>_in_<Class> energy_product_in_anisotropic_nanocomposite (energy_product, anisotropic_nanocomposite) (1, 0) 1 <QNT>_of_<Value> energy_product_of_0_0_MGOe (energy_product, 0_0_MGOe) (0, 1) 1 <QNT>_of_<Value> energy_product_of_0_m_/_s (energy_product, 0_m_/_s) (0, 1) 1 <QNT>_of_<Class> energy_product_of_magnet (energy_product, magnet) (1, 0) 1 <QNT>_of_<Class> energy_product_of_nanocomposite (energy_product, nanocomposite) (1, 0) 2 <QNT>_of_<Class>_be_recorded_as_high_as_<Value> energy_product_of_nanocomposite_be_recorded_as_high_as_0_MJ_/_m_3 (energy_product, nanocomposite, 0_MJ_/_m_3) (1, 0), (1, 2) 1 <QNT>_of_<Class> enhance_coercivity_of_Ce_Fe_B_magnet (enhance_coercivity, Ce_Fe_B_magnet) (1, 0) 1 <QNT>_of_<Class> enhance_coercivity_of_hot_deformed_magnet (enhance_coercivity, hot_deformed_magnet) (1, 0) 3 <QNT>_of_<Class> enhance_coercivity_of_magnet (enhance_coercivity, magnet) (1, 0) 1 <QNT>_of_<Element> enhance_coercivity_of_Nd (enhance_coercivity, Nd) (1, 0) 3 <QNT>_of_<Class> enhance_coercivity_of_Nd_Fe_B (enhance_coercivity, Nd_Fe_B) (1, 0) 3 <QNT>_of_<Shape> enhance_coercivity_of_Nd_Fe_B_layer (enhance_coercivity, Nd_Fe_B_layer) (1, 0) 2 <QNT>_of_<Class> enhance_coercivity_of_sintered_magnet (enhance_coercivity, sintered_magnet) (1, 0) 1 <QNT>_of_<Class> enhance_coercivity_of_SrFe_O (enhance_coercivity, SrFe_O) (1, 0) 1 <QNT>_up_to_<Value> enhance_coercivity_up_to_0_kA_/_m (enhance_coercivity, 0_kA_/_m) (0, 1) 1 <Element>_of_<Element> extra_amount_of_Nd_+_Ce (extra_amount, Nd_+_Ce) (0, 1) 1 <Element>_(_<Element>_) Fe_(_0_wt_._%_) (Fe, 0_wt_._%) (0, 1) 2 <Shape>_be_<Value> Fe_/_Pr_Fe_B_film_be_0_μ (Fe_/_Pr_Fe_B_film, 0_μ) (0, 1) 1 <Element>_be_<Value> Fe_3_+_ion_be_0_μ (Fe_3_+_ion, 0_μ) (0, 1) 1 <Shape>_with_<QNT>_of_<Value> Fe_B_/_Nd_Fe_B_film_with_remanence_value_of_0_T (Fe_B_/_Nd_Fe_B_film, remanence_value, 0_T) (0, 1), (1, 2) 1 <Element>_of_<Element> Fe_concentration_of_0_% (Fe_concentration, 0_%) (0, 1) 1 <QNT>_in_<Shape> Fe_magnetic_moment_in_GB_phase (Fe_magnetic_moment, GB_phase) (1, 0) 2 <Class>_with_<QNT>_of_<Value> FePr_(_BSi_)_alloy_with_coercivity_of_0_kOe (FePr_(_BSi_)_alloy, coercivity, 0_kOe) (0, 1), (1, 2) 1 <Shape>_be_<Value> film_be_~_0_T (film, ~_0_T) (0, 1) 1 <Shape>_with_<QNT>_of_<Value> film_with_coercivity_of_0_T (film, coercivity, 0_T) (0, 1), (1, 2) 1 <Shape>_with_<QNT>_of_<Value> film_with_remanence_value_of_0_T (film, remanence_value, 0_T) (0, 1), (1, 2) 1 <Treatment>_at_<Treatment> GBDP_at_various_temperature (GBDP, various_temperature) (0, 1) 1 <QNT>_up_to_<Value> giant_coercivity_up_to_0_kOe (giant_coercivity, 0_kOe) (0, 1) 1 <Shape>_(_<Shape>_) grain_size_(_0_0_nm_) (grain_size, 0_0_nm) (0, 1) 1 <Shape>_(_<Shape>_) grain_size_(_0_μ_m_) (grain_size, 0_μ_m) (0, 1) 1 <QNT>_(_<Value>_) H_(_0_kOe_) (H, 0_kOe) (0, 1) 4 <QNT>_~_<Value> H_~_0_kA_/_m (H, 0_kA_/_m) (0, 1) 2 <QNT>_~_<Value> H_~_0_MA_/_m (H, 0_MA_/_m) (0, 1) 1 <QNT>_~_<Value> H_~_0_Oe (H, 0_Oe) (0, 1) 1 <QNT>_for_<Class> H_for_0_wt_._%_Nd_Fe_B (H, 0_wt_._%_Nd_Fe_B) (1, 0) 1 <QNT>_for_<Class> H_for_alloy (H, alloy) (1, 0) 1 <QNT>_for_<Class> H_for_Pr_Co_C (H, Pr_Co_C) (1, 0) 2 <QNT>_for_<Class> H_for_Pr_Fe_B (H, Pr_Fe_B) (1, 0) 1 <QNT>_for_<Element> H_for_Pr_Fe_B_/_α_Fe (H, Pr_Fe_B_/_α_Fe) (1, 0) 1 <QNT>_for_<Shape> H_for_sample (H, sample) (1, 0) 1 <QNT>_in_<Class> H_in_CeFe_Co_Ti (H, CeFe_Co_Ti) (1, 0) 1 <QNT>_of_<Value> H_of_0_kA_m_-_1 (H, 0_kA_m_-_1) (0, 1) 2 <QNT>_of_<Value> H_of_about_0_kA_/_m (H, about_0_kA_/_m) (0, 1) 2 <QNT>_of_<Class> H_of_alloy (H, alloy) (1, 0) 1 <QNT>_of_<Shape> H_of_alloy_rod (H, alloy_rod) (1, 0) 1 <QNT>_of_<Class> H_of_Fe_Nd_B (H, Fe_Nd_B) (1, 0) 1 <QNT>_of_<Class>_increases_from_<Value>_at_<Condition>_to_<Value>_at_<Condition> H_of_ferrite_magnet_increases_from_0_kOe_at_0_°C_to_0_kOe_at_0_°C (H, ferrite_magnet, 0_kOe, 0_°C, 0_kOe, 0_°C) (1, 0), (0, 2), (2, 3), (0, 4), (4, 5) 1 <QNT>_of_<Class> H_of_magnet (H, magnet) (1, 0) 1 <QNT>_of_<Class> H_of_MRE_Fe_B (H, MRE_Fe_B) (1, 0) 1 <QNT>_of_<Class> H_of_Nd_Fe_B (H, Nd_Fe_B) (1, 0) 3 <QNT>_of_<Shape> H_of_Nd_Fe_B_/_Dy_/_Nd_film (H, Nd_Fe_B_/_Dy_/_Nd_film) (1, 0) 1 <QNT>_of_<Shape> H_of_Nd_Fe_B_/_Dy_/_Nd_thin_film (H, Nd_Fe_B_/_Dy_/_Nd_thin_film) (1, 0) 1 <QNT>_of_<Shape> H_of_Nd_Fe_B_film (H, Nd_Fe_B_film) (1, 0) 1 <QNT>_up_to_<Value> H_up_to_~_0_kA_m_-_1 (H, ~_0_kA_m_-_1) (0, 1) 1 <QNT>_up_to_<Value> H_up_to_0_kOe (H, 0_kOe) (0, 1) 1 <QNT>_be_<Value> H_value_be_approximately_0_kA_/_m (H_value, approximately_0_kA_/_m) (0, 1) 1 <QNT>_of_<Value> H_value_of_0_kA_/_m (H_value, 0_kA_/_m) (0, 1) 2 <QNT>_of_<Value> H_value_of_0_kA_m_-_1 (H_value, 0_kA_m_-_1) (0, 1) 1 <QNT>_(_<QNT>_) hci_(_β_) (hci, β) (0, 1) 1 <QNT>_~_<Value> hci_~_0_kOe (hci, 0_kOe) (0, 1) 2 <QNT>_and_<QNT>_be_<Value>_and_<Value> hci_and_(_BH_)_max_be_0_kOe_and_0_MGOe (hci, (_BH_)_max, 0_kOe, 0_MGOe) (0, 2), (1, 3) 1 <QNT>_and_<QNT>_for_<Class>_vary_from_<Value>_and_<Value>_at_<Condition>_to_<Value>_and_<Value>_at_<Condition> hci_and_(_BH_)_max_for_(_Nd_Ce_)_Fe_B_vary_from_0_kOe_and_0_MGOe_at_0_K_to_0_kOe_and_0_MGOe_at_0_K (hci, (_BH_)_max, (_Nd_Ce_)_Fe_B, 0_kOe, 0_MGOe, 0_K, 0_kOe, 0_MGOe, 0_K) (2, 0), (2, 1), (0, 3), (1, 4), (3, 5), (4, 5), (0, 6), (1, 7), (6, 8), (7, 8) 1 <QNT>_between_<Value>_and_<Value> hci_between_0_and_0_kOe (hci, 0, 0_kOe) (0, 1), (0, 2) 1 <QNT>_for_<Class> hci_for_(_Nd_Ce_)_Fe_Co_B (hci, (_Nd_Ce_)_Fe_Co_B) (1, 0) 1 <QNT>_for_<Shape> hci_for_(_Nd_Ce_)_Fe_Co_B_melt_spun_ribbon (hci, (_Nd_Ce_)_Fe_Co_B_melt_spun_ribbon) (1, 0) 1 <QNT>_for_<Shape> hci_for_sample (hci, sample) (1, 0) 1 <QNT>_for_<Element> hci_for_x_=_0 (hci, x_=_0) (1, 0) 1 <QNT>_of_<Element> hci_of_0_%_Ce_substitution (hci, 0_%_Ce_substitution) (1, 0) 1 <Class>_with_<QNT>_of_<Value> HD_magnet_with_coercivity_value_of_0_T (HD_magnet, coercivity_value, 0_T) (0, 1), (1, 2) 1 <Fabrication>_of_<Fabrication> HD_temperature_of_0_°C (HD_temperature, 0_°C) (1, 0) 1 <Shape>_with_<QNT>_of_<Value> HDDR_powder_with_coercivity_of_0_kA_/_m (HDDR_powder, coercivity, 0_kA_/_m) (0, 1), (1, 2) 1 <Shape>_with_<QNT>_of_<Value> HDDR_powder_with_coercivity_of_0_kOe (HDDR_powder, coercivity, 0_kOe) (0, 1), (1, 2) 1 <Treatment>_at_<Treatment> heat_treated_at_temperature (heat_treated, temperature) (0, 1) 1 <Treatment>_at_<Treatment> heat_treatment_at_0_°C (heat_treatment, 0_°C) (0, 1) 1 <QNT>_of_<Value> high_(_BH_)_of_0_±_0_kJ_m_-_3_be (high_(_BH_), 0_±_0_kJ_m_-_3_be) (0, 1) 2 <QNT>_of_<Value> high_(_BH_)_of_0_kJ_m_-_3 (high_(_BH_), 0_kJ_m_-_3) (0, 1) 1 <QNT>_of_<Value> high_(_BH_)_of_0_MGOe (high_(_BH_), 0_MGOe) (0, 1) 1 <QNT>_(_<Value>_) high_coercivity_(_~_0_kOe_) (high_coercivity, ~_0_kOe) (0, 1) 1 <QNT>_(_<Value>_) high_coercivity_(_0_kA_/_m_) (high_coercivity, 0_kA_/_m) (0, 1) 1 <QNT>_(_<Value>_) high_coercivity_(_0_Oe_) (high_coercivity, 0_Oe) (0, 1) 1 <QNT>_(_<Value>_) high_coercivity_(_0_T_) (high_coercivity, 0_T) (0, 1) 1 <QNT>_(_<QNT>_) high_coercivity_(_H_) (high_coercivity, H) (0, 1) 1 <QNT>_(_<QNT>_)_of_<Value> high_coercivity_(_H_)_of_approximately_0_MA_/_m (high_coercivity, H, approximately_0_MA_/_m) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_=_<Value>_) high_coercivity_(_H_=_0_kA_/_m_) (high_coercivity, H, 0_kA_/_m) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_=_<Value>_) high_coercivity_(_H_=_0_kOe_) (high_coercivity, H, 0_kOe) (0, 1), (1, 2) 1 <QNT>_at_<Condition> high_coercivity_at_0_T (high_coercivity, 0_T) (0, 1) 1 <QNT>_for_<Element> high_coercivity_for_Nd_rich_composition (high_coercivity, Nd_rich_composition) (1, 0) 1 <QNT>_in_<Class> high_coercivity_in_magnet (high_coercivity, magnet) (1, 0) 1 <QNT>_in_<Class> high_coercivity_in_melt_spun_precipitation_hardened_magnet (high_coercivity, melt_spun_precipitation_hardened_magnet) (1, 0) 1 <QNT>_in_<Element> high_coercivity_in_Nd (high_coercivity, Nd) (1, 0) 2 <QNT>_in_<Class> high_coercivity_in_Nd_Fe_B_/_Fe_nanocomposite (high_coercivity, Nd_Fe_B_/_Fe_nanocomposite) (1, 0) 2 <QNT>_in_<Shape> high_coercivity_in_Nd_Fe_B_/_Fe_nanocomposite_film (high_coercivity, Nd_Fe_B_/_Fe_nanocomposite_film) (1, 0) 2 <QNT>_in_<Class> high_coercivity_in_permanent_magnet (high_coercivity, permanent_magnet) (1, 0) 1 <QNT>_in_<Class> high_coercivity_in_recycled_magnet (high_coercivity, recycled_magnet) (1, 0) 1 <QNT>_in_<Shape> high_coercivity_in_single_phase (high_coercivity, single_phase) (1, 0) 1 <QNT>_of_<Value> high_coercivity_of_0_kA_/_m (high_coercivity, 0_kA_/_m) (0, 1) 1 <QNT>_of_<Value> high_coercivity_of_0_kA_m_-_1 (high_coercivity, 0_kA_m_-_1) (0, 1) 1 <QNT>_of_<Value> high_coercivity_of_0_kOe (high_coercivity, 0_kOe) (0, 1) 8 <QNT>_of_<Value> high_coercivity_of_0_T (high_coercivity, 0_T) (0, 1) 9 <QNT>_of_<Value> high_coercivity_of_about_0_T (high_coercivity, about_0_T) (0, 1) 1 <QNT>_of_<Value> high_coercivity_of_approximately_0_MA_/_m (high_coercivity, approximately_0_MA_/_m) (0, 1) 1 <QNT>_of_<QNT> high_coercivity_of_H (high_coercivity, H) (0, 1) 6 <QNT>_of_<QNT>_=_<Value> high_coercivity_of_H_=_0_kOe (high_coercivity, H, 0_kOe) (0, 1), (1, 2) 5 <QNT>_of_<Shape> high_coercivity_of_modified_powder (high_coercivity, modified_powder) (1, 0) 1 <QNT>_of_<Class> high_coercivity_of_Pr_Cu (high_coercivity, Pr_Cu) (1, 0) 1 <QNT>_of_<Shape> high_coercivity_of_Pr_Cu_diffusion_processed_sample (high_coercivity, Pr_Cu_diffusion_processed_sample) (1, 0) 1 <QNT>_of_<Class> high_coercivity_of_recycled_magnet (high_coercivity, recycled_magnet) (1, 0) 1 <QNT>_of_<Class> high_coercivity_of_x_=_0_alloy (high_coercivity, x_=_0_alloy) (1, 0) 1 <QNT>_(_<Value>_) high_H_(_0_0_kA_m_-_1_) (high_H, 0_0_kA_m_-_1) (0, 1) 1 <QNT>_of_<Value> high_H_of_0_kA_/_m (high_H, 0_kA_/_m) (0, 1) 3 <QNT>_of_<Value> high_H_of_0_kOe (high_H, 0_kOe) (0, 1) 3 <QNT>_of_<Value> high_maximum_energy_product_(_BH_)_of_0_kJ_/_m_3 (high_maximum_energy_product_(_BH_), 0_kJ_/_m_3) (0, 1) 1 <QNT>_(_<QNT>_=_<Value>_) high_remanence_(_B_=_0_0_T_) (high_remanence, B, 0_0_T) (0, 1), (1, 2) 1 <QNT>_in_<Element> high_remanence_in_Zr_containing (high_remanence, Zr_containing) (1, 0) 1 <QNT>_of_<Value> high_remanence_of_~_0_T (high_remanence, ~_0_T) (0, 1) 1 <QNT>_of_<Value> high_remanence_of_0_emu_/_g (high_remanence, 0_emu_/_g) (0, 1) 1 <QNT>_of_<Value> high_remanence_of_0_kG (high_remanence, 0_kG) (0, 1) 2 <QNT>_of_<QNT> high_remanence_of_J (high_remanence, J) (0, 1) 2 <QNT>_of_<QNT>_=_<Value> high_remanence_of_J_=_0_T (high_remanence, J, 0_T) (0, 1), (1, 2) 2 <QNT>_of_<Class> high_room_temperature_coercivity_of_Pr_Cu_diffusion_processed_hot_deformed_Nd_Fe_B_magnet (high_room_temperature_coercivity, Pr_Cu_diffusion_processed_hot_deformed_Nd_Fe_B_magnet) (1, 0) 1 <QNT>_(_<QNT>_=_<Value>_) high_saturation_magnetization_(_μ_M_=_0_T_) (high_saturation_magnetization, μ_M, 0_T) (0, 1), (1, 2) 2 <QNT>_in_<Class> high_saturation_magnetization_in_nanocomposite (high_saturation_magnetization, nanocomposite) (1, 0) 2 <QNT>_in_<Shape> high_saturation_magnetization_in_nanocomposite_film (high_saturation_magnetization, nanocomposite_film) (1, 0) 2 <QNT>_of_<Element> high_saturation_magnetization_of_Nd (high_saturation_magnetization, Nd) (1, 0) 1 <QNT>_of_<Class> high_saturation_magnetization_of_Nd_Fe_B (high_saturation_magnetization, Nd_Fe_B) (1, 0) 1 <QNT>_(_<Value>_) high_uniaxial_anisotropy_(_0_MJ_/_m_3_) (high_uniaxial_anisotropy, 0_MJ_/_m_3) (0, 1) 1 <QNT>_in_<Class> high_value_in_Dy_free_Nd_Fe_B_sintered_magnet (high_value, Dy_free_Nd_Fe_B_sintered_magnet) (1, 0) 1 <QNT>_of_<QNT> high_value_of_(_B_H_) (high_value, (_B_H_)) (0, 1) 2 <QNT>_of_<Value> high_value_of_0_kA_m_-_1 (high_value, 0_kA_m_-_1) (0, 1) 1 <QNT>_of_<Value> high_value_of_0_kJ_m_-_3 (high_value, 0_kJ_m_-_3) (0, 1) 1 <QNT>_of_<Value> high_value_of_0_kOe (high_value, 0_kOe) (0, 1) 2 <QNT>_of_<QNT> high_value_of_coercivity (high_value, coercivity) (0, 1) 3 <QNT>_of_<QNT> high_value_of_M (high_value, M) (0, 1) 1 <QNT>_of_<QNT> high_value_of_maximum_energy_product_(_B_H_) (high_value, maximum_energy_product_(_B_H_)) (0, 1) 2 <QNT>_of_<QNT> high_value_of_remanence (high_value, remanence) (0, 1) 2 <Fabrication>_at_<Fabrication> hot_deformation_at_0_°C (hot_deformation, 0_°C) (0, 1) 1 <Fabrication>_of_<Fabrication> hot_deformation_of_melt_spun (hot_deformation, melt_spun) (1, 0) 1 <Fabrication>_at_<Fabrication> hot_deformed_at_0_°C (hot_deformed, 0_°C) (0, 1) 2 <Class>_be_<Value> hot_deformed_magnet_be_~_0_MGOe (hot_deformed_magnet, ~_0_MGOe) (0, 1) 1 <Class>_be_<Value> hot_deformed_magnet_be_0_T (hot_deformed_magnet, 0_T) (0, 1) 1 <Class>_be_<Value> hot_deformed_magnet_be_around_0_T (hot_deformed_magnet, around_0_T) (0, 1) 1 <Fabrication>_at_<Fabrication> hot_pressing_at_0_°C (hot_pressing, 0_°C) (0, 1) 1 <QNT>_(_<QNT>_) increase_coercivity_(_μ_H_) (increase_coercivity, μ_H) (0, 1) 1 <QNT>_of_<Shape> increase_coercivity_of_Nd_Fe_B_phase (increase_coercivity, Nd_Fe_B_phase) (1, 0) 1 <QNT>_of_<Value> increase_in_coercivity_of_~_0_kA_m_-_1 (increase_in_coercivity, ~_0_kA_m_-_1) (0, 1) 1 <QNT>_of_<Value> increase_in_coercivity_of_0_% (increase_in_coercivity, 0_%) (0, 1) 1 <QNT>_of_<Value> increase_in_coercivity_of_0_kA_m_-_1 (increase_in_coercivity, 0_kA_m_-_1) (0, 1) 1 <QNT>_of_<Class> increase_in_coercivity_of_M (increase_in_coercivity, M) (1, 0) 1 <QNT>_of_<Class> increase_in_coercivity_of_quinternary_alloy (increase_in_coercivity, quinternary_alloy) (1, 0) 1 <QNT>_to_<Value> increase_in_coercivity_to_0_T (increase_in_coercivity, 0_T) (0, 1) 1 <QNT>_for_<Element> increment_in_coercivity_for_x_=_0 (increment_in_coercivity, x_=_0) (1, 0) 1 <QNT>_of_<Value> increment_in_coercivity_of_more_than_0_kOe (increment_in_coercivity, more_than_0_kOe) (0, 1) 1 <QNT>_(_<Value>_) intrinsic_coercivity_(_0_kA_m_-_1_) (intrinsic_coercivity, 0_kA_m_-_1) (0, 1) 1 <QNT>_(_<QNT>_) intrinsic_coercivity_(_H_) (intrinsic_coercivity, H) (0, 1) 5 <QNT>_(_<QNT>_) intrinsic_coercivity_(_hci_) (intrinsic_coercivity, hci) (0, 1) 3 <QNT>_(_<QNT>_)_and_<QNT>_(_<QNT>_)_be_found_to_be_<Value>_and_<Value> intrinsic_coercivity_(_hci_)_and_maximum_energy_product_(_(_BH_)_max_)_be_found_to_be_0_kOe_and_0_MGOe (intrinsic_coercivity, hci, maximum_energy_product, (_BH_)_max, 0_kOe, 0_MGOe) (0, 1), (1, 4), (2, 3), (3, 5) 1 <QNT>_(_<QNT>_)_of_<Value> intrinsic_coercivity_(_hci_)_of_0_kOe (intrinsic_coercivity, hci, 0_kOe) (0, 1), (1, 2) 1 <QNT>_at_<Condition> intrinsic_coercivity_at_0_K (intrinsic_coercivity, 0_K) (0, 1) 1 <QNT>_be_<Value> intrinsic_coercivity_be_0_kA_/_m (intrinsic_coercivity, 0_kA_/_m) (0, 1) 2 <QNT>_for_<Class> intrinsic_coercivity_for_annealed_alloy (intrinsic_coercivity, annealed_alloy) (1, 0) 1 <QNT>_for_<Shape> intrinsic_coercivity_for_sample_0 (intrinsic_coercivity, sample_0) (1, 0) 2 <QNT>_=_<Value> intrinsic_coercivity_H_=_0_kA_m_-_1 (intrinsic_coercivity_H, 0_kA_m_-_1) (0, 1) 2 <QNT>_of_<Value> intrinsic_coercivity_H_of_0_kOe (intrinsic_coercivity_H, 0_kOe) (0, 1) 1 <QNT>_of_<Class> intrinsic_coercivity_H_of_as_cast_magnet (intrinsic_coercivity_H, as_cast_magnet) (1, 0) 1 <QNT>_of_<Class> intrinsic_coercivity_of_(_Nd_Ce_)_Fe_Co_B (intrinsic_coercivity, (_Nd_Ce_)_Fe_Co_B) (1, 0) 1 <QNT>_of_<Shape> intrinsic_coercivity_of_(_Nd_Ce_)_Fe_Co_B_melt_spun_ribbon (intrinsic_coercivity, (_Nd_Ce_)_Fe_Co_B_melt_spun_ribbon) (1, 0) 1 <QNT>_of_<Value> intrinsic_coercivity_of_0_kA_/_m (intrinsic_coercivity, 0_kA_/_m) (0, 1) 2 <QNT>_of_<Value> intrinsic_coercivity_of_0_kOe (intrinsic_coercivity, 0_kOe) (0, 1) 3 <QNT>_of_<Class> intrinsic_coercivity_of_Nd_Fe_B_magnet (intrinsic_coercivity, Nd_Fe_B_magnet) (1, 0) 1 <QNT>_of_<QNT> intrinsic_coercivity_of_μ_H (intrinsic_coercivity, μ_H) (0, 1) 1 <QNT>_reaches_as_high_as_<Value> intrinsic_coercivity_reaches_as_high_as_0_kOe (intrinsic_coercivity, 0_kOe) (0, 1) 1 <QNT>_gradually_decreases_to_<Value>_at_<Shape>_and<Value>_at_<Shape> it_gradually_decreases_to_0_kJ_m_-_3_at_N_=_0_and_0_kJ_m_-_3_at_N_=_0 (it, 0_kJ_m_-_3, N_=_0, 0_kJ_m_-_3, N_=_0) (0, 1), (1, 2), (0, 3), (3, 4) 1 <QNT>_(_<Value>_) J_(_0_T_) (J, 0_T) (0, 1) 1 <QNT>_=_<Value> J_/_J_=_0 (J_/_J, 0) (0, 1) 1 <QNT>_be_<Value> K_be_0_kOe (K, 0_kOe) (0, 1) 2 <QNT>_for_<Class> K_for_(_Nd_Ce_)_Fe_B (K, (_Nd_Ce_)_Fe_B) (1, 0) 1 <QNT>_for_<Class> K_for_Nd_Fe_B (K, Nd_Fe_B) (1, 0) 3 <QNT>_for_<Class> K_for_SmCo (K, SmCo) (1, 0) 1 <QNT>_for_<Element> K_for_x_=_0 (K, x_=_0) (1, 0) 3 <QNT>_in_<Shape> K_in_Nd_Co_diffusion_processed_film (K, Nd_Co_diffusion_processed_film) (1, 0) 1 <QNT>_in_<Shape> K_in_sample (K, sample) (1, 0) 1 <QNT>_of_<Class> K_of_(_Nd_Ce_)_Fe_B (K, (_Nd_Ce_)_Fe_B) (1, 0) 1 <QNT>_to_<Value> K_to_0_%_/_K (K, 0_%_/_K) (0, 1) 1 <QNT>_at_<Condition> large_coercivity_at_room_temperature (large_coercivity, room_temperature) (0, 1) 1 <QNT>_of_<Value> large_coercivity_of_0_kA_/_m (large_coercivity, 0_kA_/_m) (0, 1) 1 <QNT>_of_<Value> large_coercivity_of_0_kOe (large_coercivity, 0_kOe) (0, 1) 1 <QNT>_of_<Value> large_coercivity_of_approximately_0_kA_/_m (large_coercivity, approximately_0_kA_/_m) (0, 1) 1 <QNT>_of_<Value> large_energy_product_of_about_0_MGOe (large_energy_product, about_0_MGOe) (0, 1) 1 <QNT>_of_<QNT> large_remanence_of_μ_M (large_remanence, μ_M) (0, 1) 1 <QNT>_of_<QNT>_=_<Value> large_remanence_of_μ_M_=_0 (large_remanence, μ_M, 0) (0, 1), (1, 2) 1 <QNT>_of_<QNT> large_temperature_degradation_of_coercivity (large_temperature_degradation, coercivity) (0, 1) 1 <QNT>_of_<QNT> large_temperature_dependence_of_anisotropy_field (large_temperature_dependence, anisotropy_field) (0, 1) 1 <QNT>_of_<QNT> large_temperature_dependence_of_coercivity (large_temperature_dependence, coercivity) (0, 1) 1 <QNT>_of_<QNT> large_value_of_4π_M (large_value, 4π_M) (0, 1) 1 <QNT>_of_<QNT>_=_<Value> large_value_of_4π_M_=_0_kG (large_value, 4π_M, 0_kG) (0, 1), (1, 2) 1 <QNT>_of_<QNT>_=_<Value> large_value_of_H_=_0_kOe (large_value, H, 0_kOe) (0, 1), (1, 2) 1 <QNT>_of_<QNT>_and_<QNT> large_value_of_H_and_(_B_H_) (large_value, H, (_B_H_)) (1, 0), (2, 0) 1 <QNT>_of_<QNT> large_value_of_intrinsic_coercivity_H (large_value, intrinsic_coercivity_H) (0, 1) 1 <QNT>_of_<QNT>_and_<QNT> large_value_of_intrinsic_coercivity_H_and_maximum_energy_product_(_BH_) (large_value, intrinsic_coercivity_H, maximum_energy_product_(_BH_)) (1, 0), (2, 0) 1 <QNT>_of_<QNT> large_value_of_J (large_value, J) (0, 1) 1 <QNT>_of_<QNT>_and_<QNT> large_value_of_J_and_(_BH_) (large_value, J, (_BH_)) (1, 0), (2, 0) 1 <QNT>_(_<Value>_) low_(_BH_)_(_~_0_MGOe_) (low_(_BH_), ~_0_MGOe) (0, 1) 1 <QNT>_for_<Class> low_(_BH_)_for_nanocomposite_alloy (low_(_BH_), nanocomposite_alloy) (1, 0) 1 <QNT>_(_<Value>_) low_coercivity_(_0_Oe_) (low_coercivity, 0_Oe) (0, 1) 1 <QNT>_(_<QNT>_=_<Value>_) low_coercivity_(_μ_H_=_0_T_) (low_coercivity, μ_H, 0_T) (0, 1), (1, 2) 1 <QNT>_in_<Element> low_coercivity_in_Pr (low_coercivity, Pr) (1, 0) 1 <QNT>_in_<Class> low_coercivity_in_Pr_Cu (low_coercivity, Pr_Cu) (1, 0) 1 <QNT>_in_<Shape> low_coercivity_in_Pr_Cu_diffusion_processed_sample (low_coercivity, Pr_Cu_diffusion_processed_sample) (1, 0) 1 <QNT>_in_<Shape> low_coercivity_in_single_layer_film (low_coercivity, single_layer_film) (1, 0) 1 <QNT>_of_<Value> low_coercivity_of_~_0_T (low_coercivity, ~_0_T) (0, 1) 1 <QNT>_of_<Value> low_coercivity_of_0_kOe (low_coercivity, 0_kOe) (0, 1) 2 <QNT>_of_<Value> low_coercivity_of_0_T (low_coercivity, 0_T) (0, 1) 3 <QNT>_of_<Value> low_coercivity_of_about_0_T (low_coercivity, about_0_T) (0, 1) 1 <QNT>_of_<Class> low_coercivity_of_hot_deformed_magnet (low_coercivity, hot_deformed_magnet) (1, 0) 2 <QNT>_(_<Value>_) M_(_0_kG_) (M, 0_kG) (0, 1) 1 <QNT>_(_<Value>_) M_(_0_T_) (M, 0_T) (0, 1) 1 <QNT>_=_<Value> M_/_M_=_0 (M_/_M, 0) (0, 1) 7 <QNT>_of_<Value> M_/_M_of_0 (M_/_M, 0) (0, 1) 3 <QNT>_=_<Value> M_=_0_kG (M, 0_kG) (0, 1) 1 <QNT>_at_<Condition> M_at_0_°C (M, 0_°C) (0, 1) 1 <QNT>_be_<QNT> M_be_anisotropy_field (M, anisotropy_field) (0, 1) 1 <QNT>_be_<QNT> M_be_saturation_magnetization (M, saturation_magnetization) (0, 1) 1 <QNT>_of_<Value> M_of_0_T (M, 0_T) (0, 1) 1 <QNT>_of_<Shape> M_of_ribbon (M, ribbon) (1, 0) 1 <QNT>_(_<Value>_) M_value_(_around_0_T_) (M_value, around_0_T) (0, 1) 1 <QNT>_of_<Value> M_value_of_0_emu_/_g (M_value, 0_emu_/_g) (0, 1) 1 <QNT>_of_<Shape> M_value_of_film (M_value, film) (1, 0) 1 <QNT>_of_<Shape> M_value_of_ribbon (M_value, ribbon) (1, 0) 1 <Class>_be_<Value> magnet_be_0_kOe (magnet, 0_kOe) (0, 1) 1 <Class>_be_<Value> magnet_be_0_MGOe (magnet, 0_MGOe) (0, 1) 1 <Class>_be_<Value> magnet_be_about_0_T (magnet, about_0_T) (0, 1) 1 <Class>_with_<QNT>_of_<Value> magnet_with_coercivity_of_0_kOe (magnet, coercivity, 0_kOe) (0, 1), (1, 2) 1 <Class>_with_<QNT>_of_<Value> magnet_with_energy_product_of_0 (magnet, energy_product, 0) (0, 1), (1, 2) 1 <Class>_with_<QNT>_of_<Value> magnet_with_ratio_of_0_% (magnet, ratio, 0_%) (0, 1), (1, 2) 1 <QNT>_in_<Class> magnetic_anisotropy_in_magnet (magnetic_anisotropy, magnet) (1, 0) 2 <QNT>_in_<Element> magnetic_anisotropy_in_Sm (magnetic_anisotropy, Sm) (1, 0) 1 <QNT>_in_<Class> magnetic_anisotropy_in_SmCo (magnetic_anisotropy, SmCo) (1, 0) 1 <QNT>_(_<Value>_) magnetic_energy_product_(_0_MG_Oe_) (magnetic_energy_product, 0_MG_Oe) (0, 1) 1 <QNT>_(_<QNT>_) magnetic_energy_product_(_BH_) (magnetic_energy_product, BH) (0, 1) 2 <Condition>_of_<Condition> magnetic_field_of_0_kOe (magnetic_field, 0_kOe) (0, 1) 1 <Condition>_up_to_<Condition> magnetic_field_up_to_0 (magnetic_field, 0) (0, 1) 1 <Condition>_up_to_<Condition> magnetic_field_up_to_0_T (magnetic_field, 0_T) (0, 1) 1 <QNT>_in_<Class> magnetic_moment_in_α_Fe (magnetic_moment, α_Fe) (1, 0) 1 <QNT>_in_<Element> magnetic_moment_in_α_Fe_grain (magnetic_moment, α_Fe_grain) (1, 0) 1 <QNT>_of_<Element> magnetic_moment_of_Co_atom (magnetic_moment, Co_atom) (1, 0) 1 <QNT>_of_<Element> magnetic_moment_of_Dy (magnetic_moment, Dy) (1, 0) 1 <QNT>_of_<Class> magnetic_moment_of_Fe (magnetic_moment, Fe) (1, 0) 2 <QNT>_of_<Element> magnetic_moment_of_Fe_atom (magnetic_moment, Fe_atom) (1, 0) 1 <QNT>_of_<Class> magnetic_moment_of_Sm_Co (magnetic_moment, Sm_Co) (1, 0) 2 <QNT>_of_<QNT> magnetic_polarization_of_μ_M (magnetic_polarization, μ_M) (0, 1) 1 <QNT>_of_<QNT>_=_<Value> magnetic_polarization_of_μ_M_=_0_T (magnetic_polarization, μ_M, 0_T) (0, 1), (1, 2) 1 <QNT>_of_<QNT>_=_<Value>_of_<Class> magnetic_polarization_of_μ_M_=_0_T_of_nanocomposite (magnetic_polarization, μ_M, 0_T, nanocomposite) (0, 1), (1, 2), (3, 0) 1 <QNT>_of_<QNT>_=_<Value>_of_<Shape> magnetic_polarization_of_μ_M_=_0_T_of_nanocomposite_film (magnetic_polarization, μ_M, 0_T, nanocomposite_film) (0, 1), (1, 2), (3, 0) 1 <QNT>_(_<QNT>_=_<Value>_) magnetization_(_4π_M_=_0_kG_) (magnetization, 4π_M, 0_kG) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_) magnetization_(_Br_) (magnetization, Br) (0, 1) 1 <QNT>_at_<Condition> magnetization_at_0_T (magnetization, 0_T) (0, 1) 1 <QNT>_at_<Condition> magnetization_at_applied_field (magnetization, applied_field) (0, 1) 1 <QNT>_decreases_from_<Value>_for_<Class>_to_<Value>_for_<Class> magnetization_decreases_from_0_T_for_Pr_Fe_B_to_0_T_for_Pr_Fe_B (magnetization, 0_T, Pr_Fe_B, 0_T, Pr_Fe_B) (0, 1), (1, 2), (0, 3), (3, 4) 1 <QNT>_in_<Shape> magnetization_in_ribbon (magnetization, ribbon) (1, 0) 1 <QNT>_of_<Value> magnetization_of_0_emu_/_g (magnetization, 0_emu_/_g) (0, 1) 1 <QNT>_of_<Value> magnetization_of_0_MA_/_m (magnetization, 0_MA_/_m) (0, 1) 1 <QNT>_of_<Value> magnetization_of_0_T (magnetization, 0_T) (0, 1) 2 <QNT>_of_<Shape> magnetization_of_bulk (magnetization, bulk) (1, 0) 1 <QNT>_of_<Element> magnetization_of_Fe (magnetization, Fe) (1, 0) 2 <QNT>_of_<Class> magnetization_of_Fe_B (magnetization, Fe_B) (1, 0) 1 <QNT>_of_<Shape> magnetization_of_Fe_layer (magnetization, Fe_layer) (1, 0) 1 <QNT>_of_<Shape> magnetization_of_PrCo_phase (magnetization, PrCo_phase) (1, 0) 1 <QNT>_of_<Shape> magnetization_of_ribbon (magnetization, ribbon) (1, 0) 1 <QNT>_of_<Shape> magnetization_of_sample (magnetization, sample) (1, 0) 1 <QNT>_of_<Shape> magnetization_of_soft_phase (magnetization, soft_phase) (1, 0) 1 <QNT>_(_<QNT>_) magnetocrystalline_anisotropy_(_H_) (magnetocrystalline_anisotropy, H) (0, 1) 1 <QNT>_(_<QNT>_)_of_<Value> magnetocrystalline_anisotropy_(_H_)_of_0_T (magnetocrystalline_anisotropy, H, 0_T) (0, 1), (1, 2) 1 <QNT>_at_<Condition> magnetocrystalline_anisotropy_at_high_temperature (magnetocrystalline_anisotropy, high_temperature) (0, 1) 1 <QNT>_(_<QNT>_) magnetocrystalline_anisotropy_field_(_H_) (magnetocrystalline_anisotropy_field, H) (0, 1) 2 <QNT>_of_<Class> magnetocrystalline_anisotropy_field_of_La_Fe_B (magnetocrystalline_anisotropy_field, La_Fe_B) (1, 0) 1 <QNT>_of_<Class> magnetocrystalline_anisotropy_field_of_Pr_Co_C (magnetocrystalline_anisotropy_field, Pr_Co_C) (1, 0) 1 <QNT>_of_<Shape> magnetocrystalline_anisotropy_field_of_Pr_Co_C_phase (magnetocrystalline_anisotropy_field, Pr_Co_C_phase) (1, 0) 1 <QNT>_of_<Class> magnetocrystalline_anisotropy_field_of_Pr_Fe_B (magnetocrystalline_anisotropy_field, Pr_Fe_B) (1, 0) 1 <QNT>_of_<Shape> magnetocrystalline_anisotropy_field_of_Pr_Fe_B_phase (magnetocrystalline_anisotropy_field, Pr_Fe_B_phase) (1, 0) 1 <QNT>_of_<Shape> magnetocrystalline_anisotropy_of_0_:_0_:_0_phase (magnetocrystalline_anisotropy, 0_:_0_:_0_phase) (1, 0) 1 <QNT>_of_<Class> magnetocrystalline_anisotropy_of_Ce_Fe_B (magnetocrystalline_anisotropy, Ce_Fe_B) (1, 0) 1 <QNT>_of_<Class> magnetocrystalline_anisotropy_of_Dy_Fe_B_alloy (magnetocrystalline_anisotropy, Dy_Fe_B_alloy) (1, 0) 1 <QNT>_of_<Class> magnetocrystalline_anisotropy_of_Nd_Fe_B_compound (magnetocrystalline_anisotropy, Nd_Fe_B_compound) (1, 0) 1 <QNT>_at_<Condition> maximum_coercivity_at_room_temperature (maximum_coercivity, room_temperature) (0, 1) 1 <QNT>_of_<Value> maximum_coercivity_of_0_kA_/_m (maximum_coercivity, 0_kA_/_m) (0, 1) 2 <QNT>_of_<QNT> maximum_coercivity_of_D (maximum_coercivity, D) (0, 1) 1 <QNT>_of_<Value> maximum_coercivity_value_of_0_kA_m_-_1 (maximum_coercivity_value, 0_kA_m_-_1) (0, 1) 2 <QNT>_of_<Value> maximum_coercivity_value_of_0_kOe (maximum_coercivity_value, 0_kOe) (0, 1) 1 <QNT>_of_<Value> maximum_coercivity_value_of_approximately_0_kA_/_m (maximum_coercivity_value, approximately_0_kA_/_m) (0, 1) 1 <QNT>_(_<QNT>_) maximum_energy_product_(_(_BH_)_max_) (maximum_energy_product, (_BH_)_max) (0, 1) 3 <QNT>_(_<Value>_) maximum_energy_product_(_0_kJ_m_-_3_) (maximum_energy_product, 0_kJ_m_-_3) (0, 1) 1 <QNT>_(_<Value>_) maximum_energy_product_(_0_MGOe_) (maximum_energy_product, 0_MGOe) (0, 1) 1 <QNT>_(_<Value>_) maximum_energy_product_(_BH_)_(_<_0_MGOe_) (maximum_energy_product_(_BH_), <_0_MGOe) (0, 1) 1 <QNT>_=_<Value> maximum_energy_product_(_BH_)_=_0_kJ_/_m_3 (maximum_energy_product_(_BH_), 0_kJ_/_m_3) (0, 1) 1 <QNT>_be_<Value> maximum_energy_product_(_BH_)_be_0_T (maximum_energy_product_(_BH_), 0_T) (0, 1) 1 <QNT>_for_<Element> maximum_energy_product_(_BH_)_for_Dy (maximum_energy_product_(_BH_), Dy) (1, 0) 1 <QNT>_for_<Class> maximum_energy_product_(_BH_)_for_Dy_substituted_alloy (maximum_energy_product_(_BH_), Dy_substituted_alloy) (1, 0) 1 <QNT>_for_<Class> maximum_energy_product_(_BH_)_for_sintered_magnet (maximum_energy_product_(_BH_), sintered_magnet) (1, 0) 1 <QNT>_of_<Value> maximum_energy_product_(_BH_)_of_0_kG (maximum_energy_product_(_BH_), 0_kG) (0, 1) 1 <QNT>_(_<QNT>_)_of_<Value> maximum_energy_product_(_BH_)_of_0_kJ_/_m_3 (maximum_energy_product, BH, 0_kJ_/_m_3) (0, 1), (1, 2) 1 <QNT>_of_<Value> maximum_energy_product_(_BH_)_of_0_MG_Oe (maximum_energy_product_(_BH_), 0_MG_Oe) (0, 1) 2 <QNT>_of_<Value>_be_obtained_at_<Condition> maximum_energy_product_(_BH_)_of_0_MG_Oe_be_obtained_at_0_K (maximum_energy_product_(_BH_), 0_MG_Oe, 0_K) (0, 1), (1, 2) 1 <QNT>_of_<Class> maximum_energy_product_(_BH_)_of_Pr_Cu (maximum_energy_product_(_BH_), Pr_Cu) (1, 0) 1 <QNT>_of_<Shape> maximum_energy_product_(_BH_)_of_Pr_Cu_diffusion_processed_sample (maximum_energy_product_(_BH_), Pr_Cu_diffusion_processed_sample) (1, 0) 1 <QNT>_of_<Class> maximum_energy_product_(_BH_)_of_these_magnet (maximum_energy_product_(_BH_), these_magnet) (1, 0) 1 <QNT>_at_<Condition> maximum_energy_product_at_room_temperature (maximum_energy_product, room_temperature) (0, 1) 1 <QNT>_for_<Class> maximum_energy_product_for_Fe_B_Nd_Gd_Nb_Si_rod_magnet (maximum_energy_product, Fe_B_Nd_Gd_Nb_Si_rod_magnet) (1, 0) 1 <QNT>_in_<Class> maximum_energy_product_in_nanocomposite (maximum_energy_product, nanocomposite) (1, 0) 1 <QNT>_of_<QNT> maximum_energy_product_of_(_B_H_) (maximum_energy_product, (_B_H_)) (0, 1) 1 <QNT>_of_<QNT>_=_<Value> maximum_energy_product_of_(_B_H_)_=_0_kJ_/_m_3 (maximum_energy_product, (_B_H_), 0_kJ_/_m_3) (0, 1), (1, 2) 1 <QNT>_of_<QNT>_=_<Value> maximum_energy_product_of_(_BH_)_=_0_kJ_/_m_3 (maximum_energy_product, (_BH_), 0_kJ_/_m_3) (0, 1), (1, 2) 3 <QNT>_of_<QNT>_=_<Value> maximum_energy_product_of_(_BH_)_=_0_MGOe (maximum_energy_product, (_BH_), 0_MGOe) (0, 1), (1, 2) 2 <QNT>_of_<Value> maximum_energy_product_of_0_kJ (maximum_energy_product, 0_kJ) (0, 1) 1 <QNT>_of_<Value> maximum_energy_product_of_0_kJ_/_m_3 (maximum_energy_product, 0_kJ_/_m_3) (0, 1) 3 <QNT>_of_<Value> maximum_energy_product_of_0_MG_Oe (maximum_energy_product, 0_MG_Oe) (0, 1) 2 <QNT>_of_<QNT> maximum_energy_product_of_H (maximum_energy_product, H) (1, 0) 1 <QNT>_of_<Class> maximum_energy_product_of_HD_magnet (maximum_energy_product, HD_magnet) (1, 0) 1 <QNT>_of_<Class> maximum_energy_product_of_hot_deformed_magnet (maximum_energy_product, hot_deformed_magnet) (1, 0) 1 <QNT>_of_<QNT> maximum_energy_product_of_M (maximum_energy_product, M) (0, 1) 1 <QNT>_of_<Shape> maximum_energy_product_of_Mn (maximum_energy_product, Mn) (1, 0) 1 <QNT>_of_<Class> maximum_energy_product_of_MnBi (maximum_energy_product, MnBi) (1, 0) 1 <QNT>_of_<Class> maximum_energy_product_of_nanocomposite (maximum_energy_product, nanocomposite) (1, 0) 1 <QNT>_of_<Shape> maximum_energy_product_of_powder (maximum_energy_product, powder) (1, 0) 1 <QNT>_of_<Class> maximum_energy_product_of_Pr_Fe_C_nanocomposite (maximum_energy_product, Pr_Fe_C_nanocomposite) (1, 0) 1 <QNT>_up_to_<Value> maximum_energy_product_up_to_0_kJ_/_m_3 (maximum_energy_product, 0_kJ_/_m_3) (0, 1) 1 <QNT>_up_to_<Value> maximum_energy_product_up_to_0_MG_Oe (maximum_energy_product, 0_MG_Oe) (0, 1) 1 <QNT>_(_<QNT>_) maximum_magnetic_energy_product_(_(_JH_)_) (maximum_magnetic_energy_product, (_JH_)) (0, 1) 1 <QNT>_(_<QNT>_)_of_<Value> maximum_magnetic_energy_product_(_(_JH_)_)_of_0_MGOe (maximum_magnetic_energy_product, (_JH_), 0_MGOe) (0, 1), (1, 2) 1 <QNT>_of_<Value> maximum_magnetic_energy_product_of_0_MGOe (maximum_magnetic_energy_product, 0_MGOe) (0, 1) 1 <QNT>_of_<Value>_be_obtained_at_<Condition> maximum_magnetic_energy_product_of_0_MGOe_be_obtained_at_room_temperature (maximum_magnetic_energy_product, 0_MGOe, room_temperature) (0, 1), (1, 2) 1 <QNT>_of_<Value> maximum_saturation_magnetization_of_0_emu_/_g (maximum_saturation_magnetization, 0_emu_/_g) (0, 1) 1 <QNT>_be_<Value> maximum_value_be_0_kOe (maximum_value, 0_kOe) (0, 1) 1 <QNT>_be_<Value> maximum_value_be_0_MG_Oe (maximum_value, 0_MG_Oe) (0, 1) 1 <QNT>_of_<Value> maximum_value_of_0 (maximum_value, 0) (0, 1) 1 <QNT>_of_<Value> maximum_value_of_0_±_0_T (maximum_value, 0_±_0_T) (0, 1) 2 <QNT>_of_<Value> maximum_value_of_0_MG_Oe (maximum_value, 0_MG_Oe) (0, 1) 1 <QNT>_of_<QNT> maximum_value_of_coercivity (maximum_value, coercivity) (0, 1) 2 <Fabrication>_at_<Fabrication> melt_spun_at_wheel_speed (melt_spun, wheel_speed) (0, 1) 1 <Shape>_with_<QNT>_of_<Value> melt_spun_Nd_Co_B_ribbon_with_coercivity_of_0_T (melt_spun_Nd_Co_B_ribbon, coercivity, 0_T) (0, 1), (1, 2) 1 <Shape>_(_<Shape>_) melt_spun_ribbon_(_0_0_nm_) (melt_spun_ribbon, 0_0_nm) (0, 1) 1 <Element>_of_<Element> Mn_substitution_of_Fe (Mn_substitution, Fe) (0, 1) 1 <Shape>_with_<QNT>_of_<Value> MnBi_powder_with_coercivity_of_about_0_T (MnBi_powder, coercivity, about_0_T) (0, 1), (1, 2) 1 <QNT>_of_<Value> Ms_of_0_kG (Ms, 0_kG) (0, 1) 1 <Shape>_(_<Shape>_) multilayer_film_(_N_=_0_) (multilayer_film, N_=_0) (0, 1) 2 <Class>_with_<QNT>_of_<Value> Nb_substituted_Pr_Fe_Nb_B_magnet_with_coercivity_of_0_T (Nb_substituted_Pr_Fe_Nb_B_magnet, coercivity, 0_T) (0, 1), (1, 2) 1 <Element>_(_<Element>_) Nd_(_0_at_._%_) (Nd, 0_at_._%) (0, 1) 1 <Element>_(_<Element>_) Nd_(_0_wt_%_) (Nd, 0_wt_%) (0, 1) 1 <Element>_(_<Element>_) Nd_(_Cu_) (Nd, Cu) (0, 1) 1 <Element>_of_<Element> Nd_content_of_0_at_._% (Nd_content, 0_at_._%) (0, 1) 3 <Treatment>_and_<Treatment> Nd_Cu_and_Pr_Cu (Nd_Cu, Pr_Cu) (0, 1) 3 <Treatment>_and_<Treatment> Nd_Cu_and_Pr_Cu_alloy (Nd_Cu, Pr_Cu_alloy) (0, 1) 1 <Shape>_be_<Value> Nd_Fe_B_film_be_approximately_0_kA_/_m (Nd_Fe_B_film, approximately_0_kA_/_m) (0, 1) 1 <Shape>_(_<Shape>_) Nd_Fe_B_Ga_Nb_powder_(_0_μm_) (Nd_Fe_B_Ga_Nb_powder, 0_μm) (0, 1) 1 <Class>_with_<QNT>_of_<Value> Nd_Fe_B_magnet_with_coercivity_of_0_kOe (Nd_Fe_B_magnet, coercivity, 0_kOe) (0, 1), (1, 2) 1 <Class>_with_<QNT>_of_<Value> Nd_Fe_B_magnet_with_high_coercivity_of_0_T (Nd_Fe_B_magnet, high_coercivity, 0_T) (0, 1), (1, 2) 1 <Shape>_with_<QNT>_of_<Value> Nd_Fe_B_magnetic_powder_with_high_coercivity_of_0_kA_/_m (Nd_Fe_B_magnetic_powder, high_coercivity, 0_kA_/_m) (0, 1), (1, 2) 1 <Class>_with_<QNT>_of_<Value> Nd_Fe_B_sintered_magnet_with_high_remanence_of_~_0_T (Nd_Fe_B_sintered_magnet, high_remanence, ~_0_T) (0, 1), (1, 2) 1 <Class>_with_<QNT>_of_<Value> Nd_Pr_Fe_B_Ga_Cu_sintered_magnet_with_coercivity_of_0_kOe (Nd_Pr_Fe_B_Ga_Cu_sintered_magnet, coercivity, 0_kOe) (0, 1), (1, 2) 1 <Condition>_of_<Condition> operation_temperature_of_~_0_K (operation_temperature, ~_0_K) (0, 1) 1 <Condition>_of_<Condition> operation_temperature_of_0_°C (operation_temperature, 0_°C) (0, 1) 1 <Treatment>_and_<Treatment> optimum_diffusion_temperature_and_time (optimum_diffusion_temperature, time) (0, 1) 2 <Treatment>_at_<Treatment> post_sintering_thermal_treatment_at_0_°C (post_sintering_thermal_treatment, 0_°C) (0, 1) 1 <Treatment>_and_<Treatment> Pr_Cu_and_Dy_Cu (Pr_Cu, Dy_Cu) (0, 1) 2 <Class>_with_<QNT>_of_<Value> PrCo_Ti_alloy_with_energy_product_of_0_MGOe (PrCo_Ti_alloy, energy_product, 0_MGOe) (0, 1), (1, 2) 1 <Fabrication>_of_<Fabrication> processing_condition_of_melt_spinning (processing_condition, melt_spinning) (1, 0) 1 <Fabrication>_of_<Fabrication> processing_temperature_of_0_°C (processing_temperature, 0_°C) (1, 0) 1 <Fabrication>_by_<Fabrication> produced_by_ball_milling (produced, ball_milling) (0, 1) 1 <Fabrication>_by_<Fabrication> produced_by_melt_spinning_process (produced, melt_spinning_process) (0, 1) 1 <Fabrication>_by_<Fabrication> produced_by_melt_spinning_technique (produced, melt_spinning_technique) (0, 1) 1 <Fabrication>_by_<Fabrication> produced_by_SPS_method (produced, SPS_method) (0, 1) 3 <QNT>_of_<Value> produced_remanence_of_0_T (produced_remanence, 0_T) (0, 1) 1 <Element>_of_<Element> rare_earth_content_of_0_at_% (rare_earth_content, 0_at_%) (0, 1) 1 <Element>_(_<Element>_) rare_earth_element_(_RE_) (rare_earth_element, RE) (0, 1) 1 <QNT>_of_<QNT> ratio_of_(_B_H_) (ratio, (_B_H_)) (0, 1) 1 <QNT>_of_<QNT> ratio_of_M (ratio, M) (0, 1) 1 <Element>_(_<Element>_) RE_(_rare_earth_) (RE, rare_earth) (0, 1) 1 <Element>_of_<Element> RE_content_of_0_at_% (RE_content, 0_at_%) (0, 1) 1 <Shape>_(_<Shape>_) RE_rich_grain_boundary_(_GB_) (RE_rich_grain_boundary, GB) (0, 1) 3 <Class>_be_<Value> recycled_magnet_be_0_%_/_K (recycled_magnet, 0_%_/_K) (0, 1) 1 <Class>_with_<QNT>_of_<Value> recycled_magnet_with_B_of_0_kG (recycled_magnet, B, 0_kG) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_)_of_<Value> remanence_(_B_)_of_0_G (remanence, B, 0_G) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_)_of_<Value>_(_<Value>_) remanence_(_B_)_of_0_G_(_0_T_) (remanence, B, 0_G, 0_T) (0, 1), (1, 2), (2, 3) 1 <QNT>_(_<QNT>_)_of_<Value> remanence_(_B_)_of_0_kG (remanence, B, 0_kG) (0, 1), (1, 2) 2 <QNT>_(_<QNT>_=_<Value>_) remanence_(_B_=_0_0_T_) (remanence, B, 0_0_T) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_=_<Value>_) remanence_(_M_=_0_emu_/_g_) (remanence, M, 0_emu_/_g) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_) remanence_(_μ_M_) (remanence, μ_M) (0, 1) 1 <QNT>_and_<QNT>_be_<Value>_and_<Value> remanence_and_(_B_H_)_be_0_T_and_0_kJ_/_m_3 (remanence, (_B_H_), 0_T, 0_kJ_/_m_3) (0, 2), (1, 3) 1 <QNT>_at_<Condition> remanence_at_temperature_T (remanence, temperature_T) (0, 1) 1 <QNT>_of_<Value> remanence_B_of_0_kG (remanence_B, 0_kG) (0, 1) 1 <QNT>_be_<Value> remanence_be_0_emu_/_g (remanence, 0_emu_/_g) (0, 1) 1 <QNT>_for_<Element> remanence_for_0_wt_._%_Dy (remanence, 0_wt_._%_Dy) (1, 0) 1 <QNT>_in_<Element> remanence_in_Nd (remanence, Nd) (1, 0) 1 <QNT>_=_<Value> remanence_J_=_0_T (remanence_J, 0_T) (0, 1) 1 <QNT>_of_<Value> remanence_of_~_0_T (remanence, ~_0_T) (0, 1) 1 <QNT>_of_<Value> remanence_of_0_±_0_T (remanence, 0_±_0_T) (0, 1) 1 <QNT>_of_<Value> remanence_of_0_0_T (remanence, 0_0_T) (0, 1) 1 <QNT>_of_<Value> remanence_of_0_emu_/_g (remanence, 0_emu_/_g) (0, 1) 1 <QNT>_of_<QNT> remanence_of_B (remanence, B) (0, 1) 1 <QNT>_of_<QNT>_=_<Value> remanence_of_B_=_0_T (remanence, B, 0_T) (0, 1), (1, 2) 1 <QNT>_of_<Class> remanence_of_HD_magnet (remanence, HD_magnet) (1, 0) 1 <QNT>_of_<Class> remanence_of_isotropic_magnet (remanence, isotropic_magnet) (1, 0) 1 <QNT>_of_<Shape> remanence_of_modified_HDDR_Nd_Fe_Nb_Al_Cu_Ga_B_powder (remanence, modified_HDDR_Nd_Fe_Nb_Al_Cu_Ga_B_powder) (1, 0) 1 <QNT>_of_<Class> remanence_of_Nd_Dy_Al_diffusion_processed_hot_deformed_magnet (remanence, Nd_Dy_Al_diffusion_processed_hot_deformed_magnet) (1, 0) 1 <QNT>_of_<Shape> remanence_of_ribbon (remanence, ribbon) (1, 0) 1 <QNT>_of_<Shape> remanence_of_sample (remanence, sample) (1, 0) 1 <QNT>_of_<Class> remanence_of_these_magnet (remanence, these_magnet) (1, 0) 1 <QNT>_of_<QNT> remanence_of_μ_M (remanence, μ_M) (0, 1) 2 <QNT>_of_<QNT>_=_<Value> remanence_of_μ_M_=_0_T (remanence, μ_M, 0_T) (0, 1), (1, 2) 2 <QNT>_(_<QNT>_) remanence_ratio_(_M_/_M_) (remanence_ratio, M_/_M) (0, 1) 1 <QNT>_(_<QNT>_)_of_<Value> remanence_ratio_(_M_/_M_)_of_0 (remanence_ratio, M_/_M, 0) (0, 1), (1, 2) 1 <QNT>_of_<Value> remanence_ratio_M_/_M_of_0 (remanence_ratio_M_/_M, 0) (0, 1) 1 <QNT>_of_<Value> remanence_ratio_M_/_M_of_up_to_0 (remanence_ratio_M_/_M, up_to_0) (0, 1) 1 <QNT>_of_<Value> remanence_ratio_of_0 (remanence_ratio, 0) (0, 1) 1 <QNT>_of_<QNT> remanence_ratio_of_M_/_M (remanence_ratio, M_/_M) (0, 1) 1 <QNT>_of_<QNT>_=_<Value> remanence_ratio_of_M_/_M_=_0 (remanence_ratio, M_/_M, 0) (0, 1), (1, 2) 1 <QNT>_reduces_drastically_to_<Value> remanence_reduces_drastically_to_0_kG (remanence, 0_kG) (0, 1) 1 <QNT>_(_<QNT>_) remanence_temperature_coefficient_(_α_) (remanence_temperature_coefficient, α) (0, 1) 1 <QNT>_of_<Value> remanence_value_of_0_T (remanence_value, 0_T) (0, 1) 3 <QNT>_of_<Class> remanence_value_of_Nd_Dy_Al (remanence_value, Nd_Dy_Al) (1, 0) 1 <QNT>_of_<Class> remanence_value_of_Pr_Fe_B (remanence_value, Pr_Fe_B) (1, 0) 2 <QNT>_of_<Shape> remanence_value_of_Pr_Fe_B_/_α_Fe_film (remanence_value, Pr_Fe_B_/_α_Fe_film) (1, 0) 1 <QNT>_of_<Shape> remanence_value_of_Pr_Fe_B_thick_film (remanence_value, Pr_Fe_B_thick_film) (1, 0) 1 <QNT>_(_<QNT>_) remanent_magnetization_(_μ_M_) (remanent_magnetization, μ_M) (0, 1) 1 <QNT>_(_<QNT>_=_<Value>_) remanent_magnetization_(_μ_M_=_0_T_) (remanent_magnetization, μ_M, 0_T) (0, 1), (1, 2) 1 <QNT>_of_<Value> remanent_magnetization_of_0_emu_/_g (remanent_magnetization, 0_emu_/_g) (0, 1) 2 <QNT>_of_<Class> remanent_magnetization_of_hot_deformed_magnet (remanent_magnetization, hot_deformed_magnet) (1, 0) 1 <QNT>_of_<Value> remanent_polarization_of_0_T (remanent_polarization, 0_T) (0, 1) 2 <QNT>_of_<Shape> remanent_polarization_of_sample (remanent_polarization, sample) (1, 0) 1 <Shape>_with_<QNT>_of_<Value> ribbon_with_coercivity_of_0_T (ribbon, coercivity, 0_T) (0, 1), (1, 2) 2 <Shape>_with_<QNT>_of_<Value> ribbon_with_energy_product_of_about_0_MGOe (ribbon, energy_product, about_0_MGOe) (0, 1), (1, 2) 1 <QNT>_=_<Value> room_temperature_(_BH_)_=_0_MGOe (room_temperature_(_BH_), 0_MGOe) (0, 1) 1 <QNT>_be_<Value> room_temperature_coercivity_be_about_0_T (room_temperature_coercivity, about_0_T) (0, 1) 1 <QNT>_of_<Value> room_temperature_coercivity_of_0_T (room_temperature_coercivity, 0_T) (0, 1) 1 <QNT>_of_<QNT>_(_<QNT>_) room_temperature_value_of_maximum_energy_product_(_BH_) (room_temperature_value, maximum_energy_product, BH) (1, 0) 1 <QNT>_of_<QNT> room_temperature_value_of_maximum_energy_product_(_BH_)_max (room_temperature_value, maximum_energy_product_(_BH_)_max) (0, 1) 1 <Shape>_be_<Value> sample_be_about_0_T (sample, about_0_T) (0, 1) 1 <Shape>_be_<Value> sample_be_approximately_0_kA_/_m (sample, approximately_0_kA_/_m) (0, 1) 1 <Fabrication>_with_<Condition> sample_cast_with_0_kOe_magnetic_field (sample_cast, 0_kOe_magnetic_field) (0, 1) 1 <QNT>_(_<QNT>_) saturation_induction_density_(_B_) (saturation_induction_density, B) (0, 1) 1 <QNT>_(_<QNT>_)_of_<Value> saturation_induction_density_(_B_)_of_0_G (saturation_induction_density, B, 0_G) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_)_of_<Value>_(_<Value>_) saturation_induction_density_(_B_)_of_0_G_(_0_T_) (saturation_induction_density, B, 0_G, 0_T) (0, 1), (1, 2), (2, 3) 1 <QNT>_=_<Value> saturation_magnetic_polarization_J_=_0_T (saturation_magnetic_polarization_J, 0_T) (0, 1) 1 <QNT>_(_<QNT>_) saturation_magnetization_(_4π_M_) (saturation_magnetization, 4π_M) (0, 1) 1 <QNT>_(_<QNT>_) saturation_magnetization_(_4πM_) (saturation_magnetization, 4πM) (0, 1) 1 <QNT>_(_<QNT>_=_<Value>_) saturation_magnetization_(_4πM_=_0_kG_) (saturation_magnetization, 4πM, 0_kG) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_=_<Value>_) saturation_magnetization_(_J_=_0_T_) (saturation_magnetization, J, 0_T) (0, 1), (1, 2) 1 <QNT>_to_<Value> saturation_magnetization_4πM_to_0_kG (saturation_magnetization_4πM, 0_kG) (0, 1) 1 <QNT>_of_<Value> saturation_magnetization_M_of_0_T (saturation_magnetization_M, 0_T) (0, 1) 1 <QNT>_of_<Shape> saturation_magnetization_of_0_:_0_:_0_phase (saturation_magnetization, 0_:_0_:_0_phase) (1, 0) 1 <QNT>_of_<Value> saturation_magnetization_of_0_emu_/_g (saturation_magnetization, 0_emu_/_g) (0, 1) 1 <QNT>_of_<QNT> saturation_magnetization_of_M (saturation_magnetization, M) (0, 1) 1 <QNT>_of_<QNT>_=_<Value> saturation_magnetization_of_M_=_0_T (saturation_magnetization, M, 0_T) (0, 1), (1, 2) 1 <QNT>_of_<Class> saturation_magnetization_of_Nd_Fe_B_magnet (saturation_magnetization, Nd_Fe_B_magnet) (1, 0) 1 <QNT>_of_<Shape> saturation_magnetization_of_sample (saturation_magnetization, sample) (1, 0) 1 <QNT>_of_<Class> saturation_of_magnet (saturation, magnet) (1, 0) 5 <Fabrication>_for_<Fabrication> sintered_for_0_h (sintered, 0_h) (0, 1) 2 <Class>_be_<Value> sintered_magnet_be_0_T (sintered_magnet, 0_T) (0, 1) 1 <Class>_be_<Value> sintered_magnet_be_about_0_T (sintered_magnet, about_0_T) (0, 1) 2 <Fabrication>_of_<Fabrication> sintering_temperature_of_0_°C (sintering_temperature, 0_°C) (1, 0) 3 <Shape>_with_<QNT>_of_<Value> Sm_Fe_Cu_Si_C_ribbon_with_coercivity_of_0_T (Sm_Fe_Cu_Si_C_ribbon, coercivity, 0_T) (0, 1), (1, 2) 1 <Class>_with_<QNT>_of_<Value> Sm_Fe_N_(_C_)_with_curie_temperature_of_T (Sm_Fe_N_(_C_), curie_temperature, T) (0, 1), (1, 2) 1 <Shape>_with_<QNT>_of_<Value> Sm_Fe_N_ribbon_with_room_temperature_coercivity_of_0_T (Sm_Fe_N_ribbon, room_temperature_coercivity, 0_T) (0, 1), (1, 2) 1 <Shape>_be_<Value> SmCo_Fe_ribbon_be_0_T (SmCo_Fe_ribbon, 0_T) (0, 1) 1 <Shape>_(_<Shape>_) soft_magnetic_phase_(_α_Fe_) (soft_magnetic_phase, α_Fe) (0, 1) 1 <QNT>_(_<QNT>_) squareness_(_M_/_M_) (squareness, M_/_M) (0, 1) 1 <QNT>_for_<Class> squareness_for_annealed_alloy (squareness, annealed_alloy) (1, 0) 1 <QNT>_(_<Value>_) stored_magnetic_energy_(_about_0_kJ_/_m_3_) (stored_magnetic_energy, about_0_kJ_/_m_3) (0, 1) 1 <Shape>_with_<QNT>_of_<Value> structure_with_coercivity_of_0_Oe (structure, coercivity, 0_Oe) (0, 1), (1, 2) 1 <Element>_(_<Element>_) substitution_(_0_at_._%_) (substitution, 0_at_._%) (0, 1) 3 <Element>_of_<Element> substitution_of_0_at_._% (substitution, 0_at_._%) (0, 1) 1 <Element>_of_<Element> substitution_of_0_wt_._% (substitution, 0_wt_._%) (0, 1) 1 <Element>_of_<Element> substitution_of_B (substitution, B) (0, 1) 1 <Element>_of_<Element> substitution_of_Co (substitution, Co) (0, 1) 3 <Element>_of_<Element> substitution_of_Cu (substitution, Cu) (0, 1) 2 <Element>_of_<Element> substitution_of_Fe (substitution, Fe) (0, 1) 2 <Element>_of_<Element> substitution_of_Fe_3_+_ion (substitution, Fe_3_+_ion) (0, 1) 1 <Element>_of_<Element> substitution_of_heavy_rare_earth_element (substitution, heavy_rare_earth_element) (0, 1) 1 <Element>_of_<Element> substitution_of_La (substitution, La) (0, 1) 4 <Element>_of_<Element> substitution_of_Mn (substitution, Mn) (0, 1) 1 <Element>_of_<Element> substitution_of_Mo (substitution, Mo) (0, 1) 2 <Element>_of_<Element> substitution_of_Pr (substitution, Pr) (0, 1) 2 <Element>_of_<Element> substitution_of_R (substitution, R) (0, 1) 1 <Element>_of_<Element> substitution_of_Ti (substitution, Ti) (0, 1) 2 <Element>_of_<Element> substitution_of_Y (substitution, Y) (0, 1) 1 <Fabrication>_of_<Fabrication> substrate_temperature_of_0_°C (substrate_temperature, 0_°C) (1, 0) 1 <Shape>_be_<Value> surface_be_0_kA_/_m (surface, 0_kA_/_m) (0, 1) 1 <QNT>_~_<Value> T_~_0_K (T, 0_K) (0, 1) 1 <QNT>_for_<Shape> T_for_grain_size (T, grain_size) (1, 0) 2 <QNT>_in_<Class> T_in_recycled_magnet (T, recycled_magnet) (1, 0) 1 <QNT>_of_<Shape> T_of_0_:_0_:_0_phase (T, 0_:_0_:_0_phase) (1, 0) 1 <QNT>_of_<Shape> T_of_GB_phase (T, GB_phase) (1, 0) 2 <QNT>_(_<QNT>_)_of_<Value> temperature_(_BH_)_of_0_MGOe (temperature, BH, 0_MGOe) (0, 1), (1, 2) 1 <QNT>_(_<QNT>_=_<Value>_) temperature_(_T_=_0_°C_) (temperature, T, 0_°C) (0, 1), (1, 2) 1 <Treatment>_and_<Treatment> temperature_and_thermal_annealing (temperature, thermal_annealing) (0, 1) 1 <Treatment>_at_<Treatment> temperature_at_0_0_°C (temperature, 0_0_°C) (0, 1) 1 <QNT>_be_<Value> temperature_be_~_0_T (temperature, ~_0_T) (0, 1) 1 <QNT>_be_<Value> temperature_be_0_kA_/_m (temperature, 0_kA_/_m) (0, 1) 1 <QNT>_of_<Value> temperature_coefficient_of_0_%_°C_-_1 (temperature_coefficient, 0_%_°C_-_1) (0, 1) 1 <QNT>_of_<QNT>_(_<QNT>_) temperature_coefficient_of_Br_(_α_) (temperature_coefficient, Br, α) (1, 0) 2 <QNT>_of_<QNT>_(_<QNT>_) temperature_coefficient_of_coercivity_(_β_) (temperature_coefficient, coercivity, β) (1, 0) 2 <QNT>_of_<QNT>_and_<QNT> temperature_coefficient_of_coercivity_and_remanence (temperature_coefficient, coercivity, remanence) (1, 0), (2, 0) 2 <QNT>_of_<QNT> temperature_coefficient_of_hci (temperature_coefficient, hci) (0, 1) 1 <QNT>_of_<QNT>_(_<QNT>_) temperature_coefficient_of_hci_(_β_) (temperature_coefficient, hci, β) (1, 0) 1 <QNT>_of_<QNT> temperature_coefficient_of_intrinsic_coercivity (temperature_coefficient, intrinsic_coercivity) (0, 1) 1 <QNT>_of_<Class> temperature_coefficient_of_magnet (temperature_coefficient, magnet) (1, 0) 1 <QNT>_of_<Value> temperature_coefficient_β_of_0_%_K_-_1 (temperature_coefficient_β, 0_%_K_-_1) (0, 1) 1 <QNT>_of_<QNT> temperature_dependence_of_anisotropy_field (temperature_dependence, anisotropy_field) (0, 1) 1 <QNT>_of_<QNT> temperature_dependence_of_D (temperature_dependence, D) (0, 1) 1 <QNT>_of_<QNT> temperature_dependence_of_Fe_magnetic_moment (temperature_dependence, Fe_magnetic_moment) (0, 1) 1 <QNT>_of_<QNT> temperature_dependence_of_H (temperature_dependence, H) (0, 1) 1 <QNT>_of_<Class> temperature_dependence_of_magnet (temperature_dependence, magnet) (1, 0) 2 <QNT>_of_<QNT> temperature_dependence_of_magnetization (temperature_dependence, magnetization) (0, 1) 1 <QNT>_of_<QNT> temperature_dependence_of_magnetocrystalline_anisotropy_field (temperature_dependence, magnetocrystalline_anisotropy_field) (0, 1) 1 <QNT>_of_<QNT> temperature_dependence_of_remanence (temperature_dependence, remanence) (0, 1) 1 <QNT>_of_<QNT>_and_<QNT> temperature_dependence_of_remanence_and_coercivity (temperature_dependence, remanence, coercivity) (1, 0), (2, 0) 1 <QNT>_of_<QNT> temperature_dependence_of_remnant_magnetization (temperature_dependence, remnant_magnetization) (0, 1) 1 <QNT>_of_<QNT> temperature_dependence_of_μ_H (temperature_dependence, μ_H) (0, 1) 1 <QNT>_of_<Value> temperature_of_~_0_K (temperature, ~_0_K) (0, 1) 1 <QNT>_of_<Class> temperature_of_nanocomposite (temperature, nanocomposite) (1, 0) 1 <QNT>_of_<Shape> temperature_of_nanocomposite_film (temperature, nanocomposite_film) (1, 0) 1 <QNT>_of_<Shape> temperature_of_Nd_Pr_Fe_B_melt_spun_powder (temperature, Nd_Pr_Fe_B_melt_spun_powder) (1, 0) 1 <QNT>_of_<Shape> temperature_of_ribbon (temperature, ribbon) (1, 0) 1 <Fabrication>_of_<Fabrication> temperature_of_TbF_EPD_coated_sintered_Nd_Fe_B_magnet (temperature, TbF_EPD_coated_sintered_Nd_Fe_B_magnet) (1, 0) 1 <Condition>_of_<Condition> temperature_range_of_0_0_°C (temperature_range, 0_0_°C) (0, 1) 1 <QNT>_up_to_<Value> temperature_up_to_0_°C (temperature, 0_°C) (0, 1) 2 <QNT>_up_to_<Value> temperature_up_to_about_0_°C (temperature, about_0_°C) (0, 1) 1 <QNT>_(_<Value>_) that_(_0_MGOe_) (that, 0_MGOe) (0, 1) 1 <QNT>_~_<Value> that_~_0_kA_m_-_1 (that, 0_kA_m_-_1) (0, 1) 1 <QNT>_for_<Class> that_for_MRE_Fe_B_Zr_alloy (that, MRE_Fe_B_Zr_alloy) (1, 0) 1 <QNT>_for_<Class> that_for_Nd_Fe_Al_system (that, Nd_Fe_Al_system) (1, 0) 1 <QNT>_for_<Class> that_for_Nd_Fe_B_/_FeCo (that, Nd_Fe_B_/_FeCo) (1, 0) 1 <QNT>_for_<Class> that_for_Sm_Co (that, Sm_Co) (1, 0) 1 <QNT>_of_<Value> that_of_0_kA_/_m (that, 0_kA_/_m) (0, 1) 1 <QNT>_of_<Value> that_of_0_kOe (that, 0_kOe) (0, 1) 1 <QNT>_of_<Value> that_of_0_m_/_s (that, 0_m_/_s) (0, 1) 1 <QNT>_of_<Value> that_of_0_T (that, 0_T) (0, 1) 1 <QNT>_of_<Shape> that_of_0_wt_%_Dy_containing_{_[_Nd_(_Y_Dy_)_]_Co_Fe_B_}_+_Ti_C_ribbon (that, 0_wt_%_Dy_containing_{_[_Nd_(_Y_Dy_)_]_Co_Fe_B_}_+_Ti_C_ribbon) (1, 0) 1 <QNT>_of_<Class> that_of_0_wt_%_Dy_doped_Nd_Fe_B_sintered_magnet (that, 0_wt_%_Dy_doped_Nd_Fe_B_sintered_magnet) (1, 0) 1 <QNT>_of_<Class> that_of_as_hot_deformed_magnet (that, as_hot_deformed_magnet) (1, 0) 1 <QNT>_of_<Shape> that_of_as_spun_ribbon (that, as_spun_ribbon) (1, 0) 1 <QNT>_of_<Class> that_of_Ce_Fe_B (that, Ce_Fe_B) (1, 0) 1 <QNT>_of_<Class> that_of_directly_annealed_partially_amorphous_(_Nd_Pr_)_Fe_Co_Nb_B (that, directly_annealed_partially_amorphous_(_Nd_Pr_)_Fe_Co_Nb_B) (1, 0) 1 <QNT>_of_<Shape> that_of_Fe_B_/_Nd_Fe_B_film (that, Fe_B_/_Nd_Fe_B_film) (1, 0) 1 <QNT>_of_<Shape> that_of_Fe_B_/_Nd_Fe_B_one (that, Fe_B_/_Nd_Fe_B_one) (1, 0) 4 <QNT>_of_<Class> that_of_ferrite_magnet (that, ferrite_magnet) (1, 0) 1 <QNT>_of_<Shape> that_of_hard_magnetic_phase (that, hard_magnetic_phase) (1, 0) 1 <QNT>_of_<Shape> that_of_HDDR_powder (that, HDDR_powder) (1, 0) 1 <QNT>_of_<Class> that_of_hot_deformed_magnet (that, hot_deformed_magnet) (1, 0) 2 <QNT>_of_<Class> that_of_Nd_Cu_diffusion_processed_magnet (that, Nd_Cu_diffusion_processed_magnet) (1, 0) 1 <QNT>_of_<Shape> that_of_Nd_Cu_diffusion_processed_sample (that, Nd_Cu_diffusion_processed_sample) (1, 0) 2 <QNT>_of_<Class> that_of_Nd_Dy_Fe_Co_B (that, Nd_Dy_Fe_Co_B) (1, 0) 2 <QNT>_of_<Shape> that_of_Nd_Dy_Fe_Co_B_single_layer (that, Nd_Dy_Fe_Co_B_single_layer) (1, 0) 2 <QNT>_of_<Class> that_of_Nd_Fe_B_/_α_Fe (that, Nd_Fe_B_/_α_Fe) (1, 0) 1 <QNT>_of_<Class> that_of_Nd_Fe_B_alloy (that, Nd_Fe_B_alloy) (1, 0) 1 <QNT>_of_<Shape> that_of_Nd_Fe_B_ribbon (that, Nd_Fe_B_ribbon) (1, 0) 2 <QNT>_of_<Class> that_of_Nd_Fe_B_sintered_magnet (that, Nd_Fe_B_sintered_magnet) (1, 0) 2 <QNT>_of_<Shape> that_of_Nd_rich_phase (that, Nd_rich_phase) (1, 0) 1 <QNT>_of_<Shape> that_of_Pr_Co_C_phase (that, Pr_Co_C_phase) (1, 0) 1 <QNT>_of_<Class> that_of_Pr_Fe_B (that, Pr_Fe_B) (1, 0) 1 <QNT>_of_<Class> that_of_Pr_Fe_B_Mn (that, Pr_Fe_B_Mn) (1, 0) 1 <QNT>_of_<Class> that_of_RE_Fe_B_system (that, RE_Fe_B_system) (1, 0) 1 <QNT>_of_<Shape> that_of_single_layer_film (that, single_layer_film) (1, 0) 1 <QNT>_of_<Shape> that_of_single_phase (that, single_phase) (1, 0) 1 <QNT>_of_<Class> that_of_sintered_magnet (that, sintered_magnet) (1, 0) 2 <QNT>_of_<Class> that_of_Sm_Fe (that, Sm_Fe) (1, 0) 1 <QNT>_of_<Class> that_of_SmCo (that, SmCo) (1, 0) 2 <QNT>_of_<QNT> theoretically_calculated_value_of_energy_product (theoretically_calculated_value, energy_product) (0, 1) 1 <Shape>_(_<Shape>_) thin_film_(_~_0_nm_) (thin_film, ~_0_nm) (0, 1) 1 <Shape>_be_<Value> this_sample_be_0_T (this_sample, 0_T) (0, 1) 1 <Element>_(_<Element>_) Ti_substitution_(_y_=_0_) (Ti_substitution, y_=_0) (0, 1) 1 <QNT>_at_<Condition> uniaxial_anisotropy_at_room_temperature (uniaxial_anisotropy, room_temperature) (0, 1) 1 <Shape>_be_<Value> unit_cell_be_0_μ (unit_cell, 0_μ) (0, 1) 1 <Value>_for_<Element> up_to_0_kA_/_m_for_x_=_0 (up_to_0_kA_/_m, x_=_0) (1, 0) 1 <QNT>_(_<Value>_) value_(_~_0_MGOe_) (value, ~_0_MGOe) (0, 1) 1 <QNT>_(_<Value>_) value_(_~_0_T_) (value, ~_0_T) (0, 1) 1 <QNT>_for_<Class> value_for_Dy_free_Nd_Fe_B_sintered_magnet (value, Dy_free_Nd_Fe_B_sintered_magnet) (1, 0) 1 <QNT>_for_<Class> value_for_MnBi_magnet (value, MnBi_magnet) (1, 0) 1 <QNT>_for_<Class> value_for_Nd_based_magnet (value, Nd_based_magnet) (1, 0) 1 <QNT>_for_<Class> value_for_pure_Ce_Fe_B (value, pure_Ce_Fe_B) (1, 0) 1 <QNT>_for_<Element> value_for_x_=_0 (value, x_=_0) (1, 0) 1 <QNT>_of_<QNT>_=_<Value> value_of_(_B_H_)_=_0_MGOe (value, (_B_H_), 0_MGOe) (0, 1), (1, 2) 1 <QNT>_of_<QNT> value_of_(_BH_) (value, (_BH_)) (0, 1) 2 <QNT>_of_<QNT> value_of_(_BH_)_max (value, (_BH_)_max) (0, 1) 3 <QNT>_of_<Value> value_of_~_0_%_°C_-_1 (value, ~_0_%_°C_-_1) (0, 1) 1 <QNT>_of_<Value> value_of_0_kA_m_-_1 (value, 0_kA_m_-_1) (0, 1) 2 <QNT>_of_<Value> value_of_0_kJ_/_m (value, 0_kJ_/_m) (0, 1) 1 <QNT>_of_<Value> value_of_0_kJ_/_m_3 (value, 0_kJ_/_m_3) (0, 1) 1 <QNT>_of_<Value> value_of_0_kJ_m_-_3 (value, 0_kJ_m_-_3) (0, 1) 1 <QNT>_of_<QNT>_=_<Value> value_of_4π_M_=_0_kG (value, 4π_M, 0_kG) (0, 1), (1, 2) 1 <QNT>_of_<QNT>_and_<QNT> value_of_coercivity_and_remanence (value, coercivity, remanence) (1, 0), (2, 0) 2 <QNT>_of_<QNT>_=_<Value> value_of_H_=_0_kOe (value, H, 0_kOe) (0, 1), (1, 2) 1 <QNT>_of_<QNT>_and_<QNT> value_of_hci_and_(_BH_)_max (value, hci, (_BH_)_max) (1, 0), (2, 0) 3 <QNT>_of_<QNT> value_of_intrinsic_coercivity (value, intrinsic_coercivity) (0, 1) 1 <QNT>_of_<QNT> value_of_J (value, J) (0, 1) 1 <QNT>_of_<QNT> value_of_M (value, M) (0, 1) 1 <QNT>_of_<Class> value_of_magnet (value, magnet) (1, 0) 1 <QNT>_of_<QNT> value_of_magnetic_energy_product (value, magnetic_energy_product) (0, 1) 1 <QNT>_of_<QNT>_(_<QNT>_) value_of_magnetic_energy_product_(_BH_) (value, magnetic_energy_product, BH) (1, 0) 1 <QNT>_of_<Shape> value_of_melt_spun_ribbon (value, melt_spun_ribbon) (1, 0) 1 <QNT>_of_<Class> value_of_Nd_Fe_B (value, Nd_Fe_B) (1, 0) 1 <QNT>_of_<Shape> value_of_Nd_Fe_B_thin_film (value, Nd_Fe_B_thin_film) (1, 0) 1 <QNT>_of_<QNT>_and_<QNT> value_of_remanence_and_(_B_H_) (value, remanence, (_B_H_)) (1, 0), (2, 0) 2 <QNT>_of_<QNT>_and_<QNT> value_of_remanence_and_(_BH_) (value, remanence, (_BH_)) (1, 0), (2, 0) 1 <QNT>_of_<QNT>_and_<QNT> value_of_remanence_and_coercivity (value, remanence, coercivity) (1, 0), (2, 0) 1 <Class>_shows_<QNT>_=_<Value>_and_<QNT>_=_<Value> waste_magnet_shows_μ_M_=_0_T_and_μ_H_=_0_T (waste_magnet, μ_M, 0_T, μ_H, 0_T) (0, 1), (1, 2), (0, 3), (3, 4) 1 <Fabrication>_of_<Fabrication> wheel_speed_of_0_m_s_-_1 (wheel_speed, 0_m_s_-_1) (1, 0) 2 <Element>_of_<Element> without_addition_of_Dy (without_addition, Dy) (0, 1) 1 <Element>_of_<Element> without_addition_of_Nd (without_addition, Nd) (0, 1) 1 <Element>_of_<Element> without_addition_of_rare_earth_element (without_addition, rare_earth_element) (0, 1) 1 <Class>_be_<Value> x_=_0_alloy_be_0_kA_/_m (x_=_0_alloy, 0_kA_/_m) (0, 1) 1 <Element>_be_<Value> x_=_0_be_0_kOe (x_=_0, 0_kOe) (0, 1) 1 <Element>_(_<Element>_) α_Fe_(_0_wt_%_0_wt_%_) (α_Fe, 0_wt_%_0_wt_%) (0, 1) 1 <Class>_be_<Value> α_Fe_/_Pr_Fe_B_film_be_0_μ (α_Fe_/_Pr_Fe_B_film, 0_μ) (0, 1) 1 <Element>_of_<Element> α_Fe_content_of_0_wt_% (α_Fe_content, 0_wt_%) (0, 1) 1 <QNT>_=_<Value> β_=_0_% (β, 0_%) (0, 1) 1 <QNT>_be_<Value> β_be_0_%_/_K (β, 0_%_/_K) (0, 1) 1 <QNT>_be_<QNT> β_be_temperature_coefficient (β, temperature_coefficient) (0, 1) 1 <QNT>_for_<Class> β_for_magnet (β, magnet) (1, 0) 1 <QNT>_of_<Class> β_of_magnet (β, magnet) (1, 0) 1 <QNT>_of_<Value> Δ_H_of_~_0_kA_m_-_1 (Δ_H, ~_0_kA_m_-_1) (0, 1) 1 <QNT>_of_<Value> Δ_H_of_0_kA_m_-_1 (Δ_H, 0_kA_m_-_1) (0, 1) 1 <QNT>_~_<Value> μ_H_~_0_0_T (μ_H, 0_0_T) (0, 1) 1 <QNT>_=_<Value> μ_H_=_0_0_T (μ_H, 0_0_T) (0, 1) 2 <QNT>_for_<Shape> μ_H_for_bulk (μ_H, bulk) (1, 0) 1 <QNT>_=_<Value> μ_M_=_0_±_0_T (μ_M, 0_±_0_T) (0, 1) 2 <QNT>_=_<Value> μ_M_=_0_0_T (μ_M, 0_0_T) (0, 1) 2 <QNT>_be_<Value> μ_M_be_0_T (μ_M, 0_T) (0, 1) 1 <QNT>_of_<Value> μ_M_of_0_T (μ_M, 0_T) (0, 1) 1