Title :
Densification behaviour of Y3Fe5O12 materials prepared by microwave sintering process
Author :
Lin, C.H. ; Chang, H.Y. ; Lin, I.N.
Author_Institution :
Dept. of Mater. Sci. & Eng., Nat. Tsing Hua Univ., Hsinchu, Taiwan
fDate :
9/1/1997 12:00:00 AM
Abstract :
The microwave sintering (ms) process is observed to be superior to conventional sintering (cs) in the densification of Y3Fe5O12 materials. A density of 97.3% theoretical density (T.D.) with pure garnet phase and small grain size (5~7 μm) was obtained for materials microwave sintered at 1300°C for 20 minutes. By contrast, only 94.3% of T.D. can be reached for materials sintered by conventional processing at 1425°C for 8 h and the grains are large (~25 μm). A higher densification rate in the microwave sintering process, as compared with that in conventional sintering processing, is ascribed to the lower activation energy of densification (i.e., (Ea)ms=83.3 kcal/mol and (E a)cs=163.2 kcal/mol). On the other hand, small grain size in microwave sintered samples is attributed to the fact that the (Ea)ms-value is smaller than the activation energy of grain boundary migration (Eg=94.8 kcal/mol)
Keywords :
densification; density; garnets; grain boundary diffusion; grain growth; grain size; sintering; yttrium compounds; 1300 C; 20 min; 5 to 7 mum; Y3Fe5O12 materials; YFe5O12; YIG; densification activation energy; densification behaviour; density; grain boundary migration; microwave sintering process; pure garnet phase; small grain size; Electromagnetic heating; Ferrimagnetic materials; Garnets; Grain boundaries; Grain size; Iron; Magnetic materials; Materials science and technology; Microstructure; Microwave devices; Powders;
Journal_Title :
Magnetics, IEEE Transactions on
