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All figures (18)
Fig. 4. Correlation between specific surface and %O and %N.
Fig. 5. Correlations of Hardness with N, O and OSol .
Fig. 6. Relatives green densities of Fe and Ti powders compacted at 500 MPa.
Fig. 8. (a) Compressibility curves of the three titanium powders and (b) details of the initial stage of the compressibility curves.
Fig. 7. Compressibility curves of Fe and Ti powders.
Fig. 9. Apparent density of Ti powders measured with a Carney flowmeter.
Table 6. Compressibility data for various Ti powders [17,18]
Table 1. Powders and lubrication used
Table 4. Compacting behaviour of the powders tested at a given in-die density
Fig. 10. Applied and net pressures and slide coefficient at a given in-die density of 3.25g/cm for (a) Ti powders, and 6.8g/cm for (b) Fe powders.
Fig. 1. Typical ejection curve and ejection characteristics measured.
Fig. 2. SEM images of the different powders. (a) Ti-Batch 1, (b) Ti– Batch 2, (c)Ti-Batch 3, (d) Fe ASC100.29.
Fig. 11. Curves of Slide Coefficient for the powders tested.
Fig. 12. Ejection curves of the different Ti and Fe powders compacted at 500 MPa.
Table 5. Ejection characteristics of the different Fe and Ti powders compacted at 500 MPa
Table 2. Particle size characteristic parameters of the different powders
Fig. 3. Particle size distributions (left), and cumulative distributions (right) for the four powders tested.
Table 3. Hardness and Chemical analyses of O, N, C and H for the four powders tested
Journal Article
•
DOI
•
Study of Compaction and Ejection of Hydrided-Dehydrided Titanium Powder
[...]
P.G. Esteban
1
,
Y. Thomas
2
,
E. Baril
2
,
Elisa Maria Ruiz-Navas
1
,
Elena Gordo
1
- Show less
+1 more
•
Institutions (2)
Carlos III Health Institute
1
,
National Research Council
2
26 Feb 2011
-
Metals and Materials International