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Glass and Ceramics

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05.04.2018 | BIOMATERIALS

Change of the Phase Composition and Strength of Al₂O₃–ZrO₂-Ceramic After Hydrothermal Aging

verfasst von: R. I. Kuz’min, S. V. Veselov, N. Yu. Cherkasova, N. S. Stukacheva, Yu. N. Malyutina, V. Yu. Skiba

Erschienen in: Glass and Ceramics | Ausgabe 11-12/2018

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Abstract

The effect of Al₂O₃ weight content on the stability of the phase composition and strength of ceramic in the system Al₂O₃–3Y-ZrO₂ prepared by a commercial technology was determined. It was shown that the introduction of aluminum oxide has a positive effect on the stability of the tetragonal phase of zirconium dioxide during accelerated aging. At the same time increasing the mass content of aluminum oxide from 15 to 80% does not significantly change the ratio t-ZrO₂/m-ZrO₂. It was observed that the strength of all materials containing aluminum oxide increases after aging for 5 h.

Vorheriger Artikel Elemental Iron Content as Control Marker in Sintering Aluminum Silicate Ceramic

Nächster Artikel Femtosecond Laser Assisted Local Crystallization of Barium-Titanate-Silicate Glass

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P. M. Kelly and L. R. F. Rose, “The martensitic transformation in ceramics — its role in transformation toughening,” Progr. Mater. Sci., No. 47, 463 – 557 (2002).

N. Claussen, “Microstructural design of zirconia-toughened ceramics (ZTC),” Adv. Ceram., No. 12, 325 – 351 (1984).

R. C. Garvie, R. H. J. Hannink, and R. T. Pascoe, “Ceramic steel?,” Nature, No. 258, 703 – 704 (1975).

J. Chevalier, L. Gremillard, and S. Deville, “Low-temperature degradation of zirconia and implications for biomedical implants,” Ann. Rev. Mater. Res., No. 37, 1 – 32 (2007).

M. N. Rahaman, A. Yao, B. S. Bal, et al., “Ceramics for prosthetic hip and knee joint replacement,” J. Am. Ceram. Soc., 90(7), 1965 – 1988 (2007).CrossRef

F. F. Lange, G. L. Dunlop, and B. I. Davis, “Degradation during aging of transformation toughened ZrO₂–Y₂O₃ materials at 250°C,” J. Am. Ceram. Soc., 69(3), 237 – 240 (1986).CrossRef

J. F. Li and R. Watanabe, “Influence of a small amount of Al₂O₃ addition on the transformation of Y₂O₃-partially stabilized ZrO₂ during annealing,” J. Mater. Sci., 32(5), 1149 – 1153 (1997).CrossRef

E. S. Elshazly, M. E. S. Ali, and S. M. El-Hout, “Alumina effect on the phase transformation of 3Y-TZP ceramics,” J. Mater. Sci. Technol., 24(6), 873 – 877 (2008).

S. Veselov, N. Belousova, N. Cherkasova, et al., “Development modes of prior free sintering to form a high-density fine grain ceramics after HIP,” Appl. Mechanics Mater., Trans. Tech. Publ., 698, 457 – 460 (2015).

10.

N. Belousova, S. Veselov, R. Kuzmin, and E. Melnikova, “The influence of molding powder breakup on the sintered ceramic quality,” Appl. Mechanics Mater., 698, 513 – 518 (2015).CrossRef

11.

S. V. Veselov, “Evaluation of the effect of zirconium dioxide additive on the structure and properties of aluminum oxide ceramic,” in: Current Problems of Machine Engineering: Materials. International Scientific and Applications Conference [in Russian] (2014), pp. 473 – 477.

12.

H. Toraya, M. Yoshimura, and S. Somiya, “Calibration curve for quantitative analysis of the monoclinic-tetragonal ZrO₂ system by x-ray diffraction,” J. Am. Ceram. Soc., 67(6), 119 – 121 (1984).CrossRef

13.

C. J. Ho, H. C. Liu, and W. H. Tuan, “Effect of abrasive grinding on the strength of Y-TZP,” J. Europ. Ceram. Soc., 29(12), 2665 – 2669 (2009).CrossRef

14.

S.-L. Hwang and I.-W. Chen, “Grain size control of tetragonal zirconia polycrystals using the space charge concept,” J. Am. Ceram. Soc., 73(11), 3269 – 3277 (1990).CrossRef

15.

P. Li, I. W. Chen, and J. E. Penner Hahn, “Effect of dopants on zirconia stabilization — an x-ray absorption study: I, trivalent dopants,” J. Am. Ceram. Soc., 77(1), 118 – 128 (1994).CrossRef

16.

N. S. Stukacheva, S. V. Veselov, N. Yu. Cherkasova, et al., “Effectiveness of using nanodisperse zirconium dioxide powder to strengthen aluminum oxide ceramic,” Dokl. Akad. Nauk Vysshei Shkoly Ross. Feder., No. 4, 33 – 42 (2016).

17.

M. Yoshimura, T. Noma, K. Kawabata, and S. Somiya, “Role of water on the degradation process of Y-TZP,” J. Mater. Sci. Lett., No. 6, 465 – 467 (1987).

18.

J. Chevalier, L. Gremillard, A. V. Virkar, and D. R. Clarke, “The tetragonal – monoclinic transformation in zirconia: lessons learned and future trends,” J. Am. Ceram. Soc., 92, 1901 – 1920 (2009).CrossRef

19.

J. Schneider, S. Begand, R. Kriegel, et al., “Low temperature aging behavior of alumina toughened zirconia,” J. Am. Ceram. Soc., 91(11), 3613 – 3618 (2008).CrossRef

20.

H. Tsubakino, R. Nozato, and M. Hamamoto, “Effect of alumina addition on the tetragonal to monoclinic phase transformation in zirconia – 3 mol.% yttria,” J. Am. Ceram. Soc., 74(2), 440 – 443 (1991).CrossRef

21.

S. V. Veselov, N. S. Stukacheva, R. I. Kuz’min, et al., “Structure and mechanical properties of ceramic materials of the system Al₂O₃–ZrO₂,” Nauch. Vest. Novosibirsk. Gos. Tekh. Univer., No. 4, 207 – 217 (2016).

22.

F. Kern, S. Koummarasy, and R. Gadow, “The influence of stabilizer concentration on the mechanical properties of alumina – vol.% zirconia (0.6Y-2Y) composites,” J. Ceram. Sci. Technol., 7(3), 295 – 300 (2016).

23.

Y. F. Yi, N. Wen, and X. L. Wang, “Comparison of the low temperature degradation properties of two Y-TZP ceramics for dental applications,” Key Eng. Mater., Trans. Tech. Publ., 492, 107 – 111 (2012).CrossRef

24.

C. Wang, L. M. Dong, Y. F. Yi, et al., “Influence of low temperature aging on the flexural strength of Y-TZP ceramics,” Key Eng. Mater., Trans. Tech. Publ., 512, 1756 – 1760 (2012).CrossRef

Titel: Change of the Phase Composition and Strength of Al2O3–ZrO2-Ceramic After Hydrothermal Aging
verfasst von: R. I. Kuz’min
S. V. Veselov
N. Yu. Cherkasova
N. S. Stukacheva
Yu. N. Malyutina
V. Yu. Skiba
Publikationsdatum: 05.04.2018
Verlag: Springer US
Erschienen in: Glass and Ceramics / Ausgabe 11-12/2018
Print ISSN: 0361-7610
Elektronische ISSN: 1573-8515
DOI: https://doi.org/10.1007/s10717-018-0007-8

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