Plastic Behavior and Deformation Structure of Silicide Single Crystals with Transition Metals at High Temperatures

Y. Umakoshi; T. Nakashima; T. Nakano; E. Yanagisawa

doi:10.1557/PROC-322-9

Abstract

The mechanical and plastic behaviors of refractory silicide single crystals with Cllb (MoSi2), C40 (CrSi2, TaSi2 and NbSi2), D88 (Ti5Si3) and Cl (CoSi2 and (Co0.9Ni0.1)Si2) structures were investigated. The C40–type silicides were deformed by (0001)<1120> slip. Their yield stress decreased sharply with increasing temperature but NbSi2 and TaSi2 which were deformable even at low temperatures, exhibited anomalous strengthening around 1350°C. Deformation of Ti5Si3 whose ductile-brittle transition occurred around 1300°C was controlled by twins and the brittle fracture occurred on the basal plane. In CoSi2 the {001}<100> slip was only activated at ambient temperatures but addition of Ni activated {110}<110> slip as secondary slip system and improved the ductility. The creep behavior of MoSi2 and CrSi2 single crystals were also investigated and was found to be controlled by the viscous and glide motion of dislocations.

References

1. Fleischer, R. L., J. Metals, 37, 16, (1985).Google Scholar

2. Umakoshi, Y., Sakagami, T., Yamane, T. and Hirano, T., Acta Metall. Mater. 38, 909, (1990)CrossRef Google Scholar

3. Umakoshi, Y., Hirano, T., Sakagami, T and Yamane, T., in High Temperature Aluminides and Intermetallics, edited by Whang, S. H., Liu, C. T., Pope, D. P. and Stiegler, J. O. (TMS, Warrendale, PA, 1990)p.111.Google Scholar

4. Vasudévan, A. K. and Petrovic, J. J., Mater. Sci. Engn., A155, 1, (1992).Google Scholar

5. Umakoshi, Y., Nakashima, T., Yamane, T. and Senba, H., in Intermetallic Compounds -Structure and Mechanical Properties-, edited by Izumi, O, (Jap. Inst. Metals, Sendai, 1991)p.639.Google Scholar

6. Maloney, M. J. and Hecht, R. J., Mater. Sci. Engn., A 155, 19, (1992).CrossRef Google Scholar

7. lto, I., Inui, H., Hirano, T. and Yamaguchi, M., Mater. Sci. Engn., A152, 153, (1992).Google Scholar

8. Frommeyer, G., Rosenkraz, R. and Ldecke, C., Z. Metallk., 81, 307, (1990).Google Scholar

9. Maloy, S. A., Heur, A. H., Lewandowski, J. J. and Mitchell, T. E., Acta metall. mater., 40, 3159, (1992).CrossRef Google Scholar

10. Sadananda, K., Feng, C. R., Jones, H. and Petrovic, J., Mat. Sci. Engn. A155, 227, (1992).CrossRef Google Scholar

11. Nakashima, T. and Umakoshi, Y., Phil. Mag. Lett., 66, 317, (1992).CrossRef Google Scholar

12. Takeuchi, S., Hashimoto, T. and Shibuya, T., J. Mater. Sci., 27, 1380, (1992).CrossRef Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Chu, F. Lei, Ming Maloy, S. A. Mitchell, T. E. Migliori, A. and Garrett, J. 1995. Single crystal elastic constants of NbSi2. Philosophical Magazine B, Vol. 71, Issue. 3, p. 373.

Umakoshi, Y. Nakano, T. Yanagisawa, E. Takezoe, T. and Negishi, A. 1997. Effect of alloying elements on anomalous strengthening of NbSi2-based silicides with C40 structure. Materials Science and Engineering: A, Vol. 239-240, Issue. , p. 102.

Hagihara, K Nakano, T and Umakoshi, Y 1998. Mechanical Properties of C40-based Ternary Mo(Si,Al)2 and Quaternary (Mo,Zr)(Si,Al)2 Silicides. Scripta Materialia, Vol. 38, Issue. 3, p. 471.

Chu, F. Thoma, D. J. McClellan, K. J. Peralta, P. Li, F. X. and Fodran, E. 1998. Processing and Properties of Mo5Si3 Single Crystals and Alloys. MRS Proceedings, Vol. 552, Issue. ,

Murakamia, T. Kitaharab, A. Kawahara, M. Takahashid, Y. Inui, H. and Yamaguchie, M. 1998. Microstructure and Mechanical Properties of Nb-Al-N and Nb-Si-B Powder Compacts Produced by Spark Plasma Sintering. MRS Proceedings, Vol. 552, Issue. ,

Chu, F. Thoma, D.J. McClellan, K.J. and Peralta, P. 1999. Mo5Si3 single crystals: physical properties and mechanical behavior. Materials Science and Engineering: A, Vol. 261, Issue. 1-2, p. 44.

Umakoshi, Y. Nakano, T. Kishimoto, K. Furuta, D. Hagihara, K. and Azuma, M. 1999. Strength and deformation mechanism of C40-based single crystal and polycrystalline silicides. Materials Science and Engineering: A, Vol. 261, Issue. 1-2, p. 113.

Murakami, T Xu, C.N Kitahara, A Kawahara, M Takahashi, Y Inui, H and Yamaguchi, M 1999. Microstructure, mechanical properties and oxidation behavior of powder compacts of the Nb–Si–B system prepared by spark plasma sintering. Intermetallics, Vol. 7, Issue. 9, p. 1043.

Nakano, T Kishimoto, M Furuta, D and Umakoshi, Y 2000. Effect of substitutational elements on plastic deformation behaviour of NbSi2-based silicide single crystals with C40 structure. Acta Materialia, Vol. 48, Issue. 13, p. 3465.

Inui, H Ishikawa, K and Yamaguchi, M 2000. Creep deformation of single crystals of binary and some ternary MoSi2 with the C11b structure. Intermetallics, Vol. 8, Issue. 9-11, p. 1159.

Inui, H and Yamaguchi, M 2001. Deformation mechanisms of transition-metal disilicides with the hexagonal C40 structure. Intermetallics, Vol. 9, Issue. 10-11, p. 857.

Murakami, T. Sasaki, S. Ichikawa, K. and Kitahara, A. 2001. Microstructure, mechanical properties and oxidation behavior of Nb–Si–Al and Nb–Si–N powder compacts prepared by spark plasma sintering. Intermetallics, Vol. 9, Issue. 7, p. 621.

Ito, K Ihara, K Tanaka, K Fujikura, M and Yamaguchi, M 2001. Physical and mechanical properties of single crystals of the T2 phase in the Mo–Si–B system. Intermetallics, Vol. 9, Issue. 7, p. 591.

Nakano, T. Azuma, M. and Umakoshi, Y. 2002. Tensile deformation and fracture behaviour in NbSi2 and MoSi2 single crystals. Acta Materialia, Vol. 50, Issue. 14, p. 3731.

Nakano, T. Nakai, Y. Maeda, S. and Umakoshi, Y. 2002. Microstructure of duplex-phase NbSi2(C40)/MoSi2(C11b) crystals containing a single set of lamellae. Acta Materialia, Vol. 50, Issue. 7, p. 1781.

Nakano, T Omomoto, Y Hagihara, K and Umakoshi, Y 2003. Plastic deformation behavior and operative slip systems of ZrSi2 single crystals with C49 type of structure. Scripta Materialia, Vol. 48, Issue. 9, p. 1307.

Hayashi, T. Ito, K. Ihara, K. Fujikura, M. and Yamaguchi, M. 2004. Creep of single crystalline and polycrystalline T2 phase in the Mo–Si–B system. Intermetallics, Vol. 12, Issue. 7-9, p. 699.

Mitra, R. 2006. Mechanical behaviour and oxidation resistance of structural silicides. International Materials Reviews, Vol. 51, Issue. 1, p. 13.

Nakano, Takayoshi Hagihara, Koji and Umakoshi, Yukichi 2006. Effect of C11b-Stabilized Element on Deformation Mode in C40-Type (Nb1-xMox)Si2 (x=0-0.85) Single Crystals. MRS Proceedings, Vol. 980, Issue. ,

Kishida, Kyosuke Nakatsuka, Satoshi Nose, Hiroaki and Inui, Haruyuki 2022. Room-temperature deformation of single crystals of transition-metal disilicides (TMSi2) with the C11b (TM = Mo) and C40 (TM = V, Cr, Nb and Ta) structures investigated by micropillar compression. Acta Materialia, Vol. 223, Issue. , p. 117468.

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Plastic Behavior and Deformation Structure of Silicide Single Crystals with Transition Metals at High Temperatures

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Plastic Behavior and Deformation Structure of Silicide Single Crystals with Transition Metals at High Temperatures

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