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Phase Equilibrium in the System Ln–Mn–O: II. Ln=Nd at 1100°C

✍ Scribed by Kenzo Kitayama; Tadao Kanzaki

Publisher
Elsevier Science
Year
2001
Tongue
English
Weight
303 KB
Volume
158
Category
Article
ISSN
0022-4596

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📜 SIMILAR VOLUMES

Phase Equilibrium in the System Ln–Mn–O:
Phase Equilibrium in the System Ln–Mn–O: I. Ln=La at 1100°C
✍ Kenzo Kitayama 📂 Article 📅 2000 🏛 Elsevier Science 🌐 English ⚖ 151 KB

are not stable. Wide ranges of nonstoichiometry were found is the LaMnO 3 phase. x ranges from ؊0.050 at log P O2 ‫؍‬ ؊13.05 to 0.18 at log P O2 ‫؍‬ 0 in the form of LaMnO 3؉x . The nonstoichiometry is represented with the equation, N O /N LaMnO3 ‫؍‬ 1.94؋10 ؊4 (log P O2 ) 3 ؉ 5.24؋10 ؊3 (log P O2

Thermogravimetric Study of the Ln2O3–Co–
Thermogravimetric Study of the Ln2O3–Co–Co2O3 System. VI: Ln=Pr at 1100 and 1150°C
✍ Kenzo Kitayama 📂 Article 📅 2000 🏛 Elsevier Science 🌐 English ⚖ 117 KB

Phase equilibria in the system Pr+Co+O at 1100 and 11503C are established by changing the oxygen partial pressure from 0 to 12.00 in ؊log (P O 2 /atm), and a representative phase diagram at 11003C is presented for the Pr 2 O 3 +Co+CO 2 O 3 system. Under experimental conditions, the PrO 1.63؉ ( ), Pr

Thermogravimetric Study of theLn2O3–Co–C
Thermogravimetric Study of theLn2O3–Co–Co2O3System: V.Ln=Nd at 1100 and 1150°C
✍ Kenzo Kitayama 📂 Article 📅 1998 🏛 Elsevier Science 🌐 English ⚖ 264 KB

Phase equilibria in the system Nd-Co-O at 1110 and 1150°C are established by changing the oxygen partial pressure from 0 to 12.00 in!log(P O 2 /atm) and phase diagrams are presented for the Nd 2 O 3 -Co-Co 2 O 3 system. Under the experimental conditions, Nd 2 O 3 , CoO, Co, Nd 4 Co 3 O 10 , and NdCo