Characterization and controlling thermal expansion of materials with kosnarite- and langbeinite-type structures

Characterization and controlling thermal expansion of materials with kosnarite- and langbeinite-type structures

[Display omitted] MZr2(TO4)x(PO4)3–x (M=Li, Na, K, Rb, Cs; T=As, V) solid solutions, NaFeZr(PO4)2SO4 and Pb2/3FeZr(PO4)7/3(SO4)2/3 with mineral kosnarite structure and KPbMgTi(PO4)3, K5/3MgE4/3(PO4)3 (E=Ti, Zr) with mineral langbeinite structure have been synthesized. According to the yielded result...

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Bibliographic Details
Published in:Journal of industrial and engineering chemistry (Seoul, Korea) Vol. 57; pp. 236 - 243
Main Authors: Pet’kov, Vladimir I., Shipilov, Alexander S., Dmitrienko, Anton S., Alekseev, Artemy A.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2018
한국공업화학회
Subjects:
Ceramics
Langbeinite-type family
NZP family
Thermal expansion
X-ray difractometry
화학공학
Thermal expansion
Ceramics
Langbeinite-type family
NZP family
X-ray difractometry
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Summary:[Display omitted] MZr2(TO4)x(PO4)3–x (M=Li, Na, K, Rb, Cs; T=As, V) solid solutions, NaFeZr(PO4)2SO4 and Pb2/3FeZr(PO4)7/3(SO4)2/3 with mineral kosnarite structure and KPbMgTi(PO4)3, K5/3MgE4/3(PO4)3 (E=Ti, Zr) with mineral langbeinite structure have been synthesized. According to the yielded results, which encompass thermal expansion data and crystallographic information about the structure of individual compounds and solid solutions, the meaningful selection of compounds with kosnarite and langbeinite structure for novel materials with controllable thermal expansion was carried out. The potassium-, rubidium-, and cesium-containing arsenates, arsenate–phosphates, vanadate–phosphates and Pb2/3FeZr(PO4)7/3(SO4)2/3 are low expansion materials (αav<2×10−6K−1); sodium–zirconium arsenate and sodium–zirconium and lithium–zirconium arsenate–phosphates, vanadate–phosphates and K5/3MgZr4/3(PO4)3 have intermediate thermal expansion (3×10−6K−1<αav<7×10−6K−1); and lithium–zirconium arsenate, KPbMgTi(PO4)3, K5/3MgTi4/3(PO4)3 are the high expansion material (αav>7×10−6K−1). The present results demonstrate that change of the size of alkali metal cation, anion substitution and varying of solid solution composition can produce kosnarite ceramics with controlled linear thermal expansion coefficients and extremely low thermal expansion anisotropy or langbeinite ceramics with isotropic expansion.
ISSN:1226-086X
1876-794X
DOI:10.1016/j.jiec.2017.08.029