2003
DOI: 10.2109/jcersj.111.110
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Pulse Electric Current Sintering and Strength of Sintered Alumina Using Transition Alumina Powders Prepared from Polyhydroxoaluminum Gel.

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Cited by 10 publications
(26 citation statements)
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“…This implies that the amount of -alumina abrasion powders generated by the wear of the pot and balls during milling [7] was very small. In the preliminary sintering study, the M 2+ -doped powders after planetary ball milling for 3 h could not attain full density by PECS at lower sintering temperatures because the seeding effect [7,22] was reduced due to the lower content of -alumina abrasion powders. Thus, the milled M 2+ -doped powders were re-calcined at 900°C for 3 h to enhance the seeding fine -alumina particles: the re-calcined powders, i.e., GA-M0 and GA-M0.1, were used for the PECS study.…”
Section: Methodsmentioning
confidence: 99%
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“…This implies that the amount of -alumina abrasion powders generated by the wear of the pot and balls during milling [7] was very small. In the preliminary sintering study, the M 2+ -doped powders after planetary ball milling for 3 h could not attain full density by PECS at lower sintering temperatures because the seeding effect [7,22] was reduced due to the lower content of -alumina abrasion powders. Thus, the milled M 2+ -doped powders were re-calcined at 900°C for 3 h to enhance the seeding fine -alumina particles: the re-calcined powders, i.e., GA-M0 and GA-M0.1, were used for the PECS study.…”
Section: Methodsmentioning
confidence: 99%
“…The decrease in the transformation temperature by re-calcination can be explained in terms of the increased seeding effect due to the increase in the number of fine -alumina particles induced by ball milling and re-calcination. The decrease in -transformation temperature promotes low-temperature densification and the development of a fine-grained microstructure [7,22]. 3.2 Densification and microstructural evolution Figure 3 shows SEM micrographs of the polished and thermally etched surfaces of sintered GA-M0 and GA-M0.1 samples obtained by PECS at 1250°C under 80 MPa.…”
Section: Methodsmentioning
confidence: 99%
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“…We have shown that the use of M 2+ -doped -aluminas [3,7,8] synthesized through a polyhydroxoaluminum (PHA) sol-gel process [9][10][11] yields a fine grain size upon sintering due to the intimate mixing of dopants at an atomic level. Among the divalent cation dopants reported in our previous study, Ca 2+ is by far the best dopant for suppressing the grain growth of -alumina upon heating [7].…”
Section: Introductionmentioning
confidence: 99%
“…3),4) Alumina ceramics having a relative density of 99÷ or more were obtained by PECS after the transition alumina powder was ground using a planetary ball mill. A relatively high bending strength of 740 MPa was realized when a mixed powder of galumina and xalumina was used 3) and a bending strength of 850 MPa was attained when single phase galumina powder was used. 4) The transition alumina powders prepared in the previous study 3),4) were ground using a planetary ball mill consisting of a 93÷pure alumina pot and 99.9÷pure alumina balls; the powder obtained is hereafter referred to as LP.…”
Section: Introductionmentioning
confidence: 99%