164 results on '"MA, B.-M."'
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2. Magnetic Characteristics of RCo7−xZrx Alloys (invited) (R = Sm, Pr, Er, Gd, and Y)
3. A Study on The Phase Transformation and Exchange-Coupling of (Nd0 95La0 05)9 5FebalCo5Nb2B10.5 Nanocomposites
4. Exchange coupling and recoil loop area in Nd 2Fe 14B nanocrystalline alloys
5. 2Hz-Electroacupuncture Attenuates Heroin-Seeking Behaviors via Adjusts CB1-Rs and CB2-Rs Expression in Relapse-Relevant Brain Regions of Heroin Self-Administration Rats
6. Antiphospholipid antibodies in patients with lupus nephritis: clinical correlations and associations with long-term outcomes
7. Microstructural control of Nb addition in nanocrystalline hard magnets with different Nd content
8. Structure and magnetic properties of Sm[([Co.sub.bal][Fe.sub.x][Zr.sub.0.05][Cu.sub.0.08][Ga.sub.y] [B.sub.z].sub.12] alloys
9. Microstructure and magnetic properties of melt-spun Sm(Co0.58Fe0.31Cu0.04Zr0.05B0.02)z ribbons.
10. MiR-155-5p inhibits the proliferation and migration of VSMCs and HUVECs in atherosclerosis by targeting AKT1.
11. Magnetization reversal in nucleation controlled magnets. II. Effect of grain size and size distribution on intrinsic coercivity of Fe-Nd-B magnets.
12. Coercivity and magnetic anisotropy of sintered Sm2Co17-type permanent magnets.
13. Comparison of the Corrosion Behavior of Die-Upset and Sintered NdFeB Magnets
14. THE EFFECTS OF REFRACTORY METALS ON THE MAGNETIC PROPERTIES OF [Alpha]-Fe/[R.sub.2][Fe.sub.14]B-TYPE NANOCOMPOSITES
15. Effects of Zr, Nb, and Cu substitutions on magnetic properties of melt-spun and hot deformed bulk anisotropic nanocomposite SmCo type magnets.
16. Effect of Ga substitution on the structure and magnetic properties of melt-spun Pr3(Fe,Co,Ti)29 system.
17. Fully dense anisotropic nanocomposite Sm(Co,Fe,Zr,Cu,B)z (z =7.5-12) magnets.
18. Structure and magnetic properties of Sm(Co[sub 1-x]Zr[sub x])[sub y] alloys (x=0.03–0.05,y=12–15) and melt-spun Sm(Co,Fe,Zr,Cu,Ga,B)[sub 12] material.
19. Neutron diffraction analysis of melt spun 2:14:1 type (NdPr)–Fe–B compounds with Ti and Zr additions.
20. Effect of Zr substitution for rare earth on microstructure and magnetic properties of melt-spun (Nd[sub 0.75]Pr[sub 0.25])[sub 12.5-x]Zr[sub x]Fe[sub 82]B[sub 5.5] (x=0–3) ribbons.
21. Investigation of magnetic properties and phase evolution of NdxFebal.TiCB10.5 (x=9, 9.5, 10, and 11) melt spun ribbons.
22. Effect of Ga addition to the Pr[sub 3](Fe,Co,Ti)[sub 29] (3:29) system.
23. Structure and magnetic properties of RCo[sub 7-x]Zr[sub x] (R=Y, Gd, Nd, or Ho, x=0–0.8).
24. Microstructural control of NdFeB cast ingots for achieving 50 MGOe sintered magnets.
25. The effects of average grain size on the magnetic properties and corrosion resistance of NdFeB sintered magnets.
26. Comparison of the improvement of thermal stability of NdFeB sintered magnets: Intrinsic and/or microstructural.
27. Spin-reorientation phenomena in (TbxEr1-x)TiFe11 systems.
28. The impact of the directional solidification on the magnetic properties of NdFeB magnets.
29. An analysis of the Pr contribution to the spin-reorientation phenomenon in PrCo5.
30. Magnetic and structural characteristics of the Pr2(Co,Fe)7B3 system.
31. Spin-reorientation phenomenon in pseudobinary (Pr1-xRx)Co5 compounds (R=Sm, Gd, Dy, Tb, Ho, and Er) as determined by ac susceptibility measurements.
32. Effect of crystal alignment on the remanence of sintered NdFeB magnets.
33. Magnetic and structural characteristics of the Nd2(Co,Fe)7B3 system.
34. Phase analysis and magnetic properties of RTiFe11-xCox (R=Y,Gd) (x=0–11).
35. Spin reorientation phenomenon in Nd0.5Er1.5Fe14-xMxB (M=Al and Co), as determined by ac susceptibility measurements.
36. Effect of Fe and/or Cu contents on the intrinsic coercivity of Sm2Co17-type coercive powders for the bonded magnet application.
37. Metal-bonded Sm2Fe17-N-type magnets.
38. Continuous Wave (CW) and Passively Q-switched Performance of a Diode-pumped Nd:YAG Ceramic Laser at 1112 nm.
39. Structure and Magnetic Properties of Sm(CobalFexTi0:05)9.66 Alloys (x = 0-0.57) and Sm(Co0.66Fe0.19Ti0.05Cu0.1)9.66 Magnets
40. Effect of Ga substitution on the structure and magnetic properties of melt-spun Pr3(Fe,Co,Ti)29 system
41. Fully dense anisotropic nanocomposite Sm(Co,Fe,Zr,Cu,B)z (z=7.5–12) magnets
42. Microstructure and magnetic properties of melt-spun Sm(Co0.58Fe0.31Cu0.04Zr0.05B0.02)z ribbons
43. Exchange coupling and recoil loop area in Nd2Fe14B nanocrystalline alloys
44. Structure and magnetic properties of Sm(Co/ sub bal/Fe/sub X/Zr/sub 0_05/Cu/sub 0_08/Ga/sub y/B/sub Z)/sub 12/ alloys
45. Structure and magnetic properties of Sm(Co1−xZrx)y alloys (x=0.03–0.05,y=12–15) and melt-spun Sm(Co,Fe,Zr,Cu,Ga,B)12 material
46. Near net shape production of radially oriented NdFeB ring magnets by backward extrusion
47. ChemInform Abstract: Recent Development in Bonded NdFeB Magnets.
48. Effect of Zr substitution for rare earth on microstructure and magnetic properties of melt-spun (Nd[sub 0.75]Pr[sub 0.25])[sub 12.5−x]Zr[sub x]Fe[sub 82]B[sub 5.5] (x=0–3) ribbons
49. Effect of Ga addition to the Pr3(Fe,Co,Ti)29 (3:29) system
50. Structure and magnetic properties of RCo7−xZrx (R=Y, Gd, Nd, or Ho, x=0–0.8)
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