References
- Tzenov N. V. and Barsoum M. W. : ‘Synthesis and characterization of Ti3AlC2’, J. Am. Ceram. Soc., 2000, 83, (4), 825–832.
- Xia Q. D. and Lv Z. L. : ‘Current carrying friction and wear characteristics of Ti3AlC2 by novel method of infiltration sintering’, Adv. Appl. Ceram., 2012, 111, (4), 202–207.
- Zou Y. , Sun Z. M. , Tada S S. and Hashimoto H. : ‘Synthesis reactions for Ti3AlC2 through pulse discharge sintering Ti/Al4C3/TiC powder mixture’, Scr. Mater., 2006, 55, (9), 767–770.
- Yang C. , Jin S. Z. , Liang B. Y. and Jia S. S. : ‘Low-temperature synthesis of high-purity Ti3AlC2 by MA-SPS technique’, J. Eur. Ceram. Soc., 2009, 29, (1), 181–185.
- Zhou W. , Mei B. , Zhu J. and Hong X. : ‘Synthesis of high-purity Ti3SiC2 and Ti3AlC2 by spark plasma sintering (SPS) technique’, J. Mater. Sci., 2005, 40, (8), 2099–2100.
- Togo A. , Chaput L. , Tanaka I. and Hug G. : ‘First-principles phonon calculations of thermal expansion in Ti3AlC2, and Ti3GeC2’, Phys. Rev. B, 2010, 81B, (17), 174301.
- Zhou Y. C. , Wang X. H. , Sun Z. M. and Chen S. Q. : ‘Electronic and structural properties of the layered ternary carbide Ti3AlC2’, J. Mater. Chem., 2001, 11, (9), 2335–2339.
- Zou Y. , Sun Z. M. , Hashimoto H. and Tada S. : ‘Mechanical behavior of Ti3AlC2 prepared by pulse discharge sintering method’, Mater. Trans., 2007, 48, (9), 2432.
- Wang J. and Zhou Y. : ‘Recent progress in theoretical prediction, preparation, and characterization of layered ternary transition-metal carbides’, Annu. Rev. Mater. Res., 2009, 39, 415–443.
- Lee D. B. and Park S. W. : ‘High-temperature oxidation of Ti3AlC2 between 1173 and 1473K in air’, Mater. Sci. Eng. A, 2006, A434, (1), 147–154.
- Zhang J. and Zhou Y. C. : ‘Microstructure, mechanical, and electrical properties of Cu- Ti3AlC2 and in situ Cu-TiCx composites’, J. Mater. Res., 2008, 23, (04), 924–932.
- Hettinger J. D. , Lofland S. E. , Finkel P. , Meehan T. , Harrell K. and Barsoum M. W. : ‘Electrical transport, thermal transport, and elastic properties of M2AlC (M = Ti, Cr, Nb, and V)’, Phys. Rev. B, 2005, 72B, (11), 115120.
- Bao Y. W. , Wang X. H. , Zhang H. B. and Zhou Y. C. : ‘Thermal shock behavior of Ti3AlC2 from between 200° C and 1300° C’, J. Eur. Ceram. Soc., 2005, 25, (14), 3367–3374.
- Zhou A. , Wang C. A. and Hunag Y. : ‘Synthesis and mechanical properties of Ti3AlC2 by spark plasma sintering’, J. Mater. Sci., 2003, 38, (14), 3111–3115.
- Han J. H. , Hwang S. S. , Lee D. and Park S. W. : ‘Synthesis and mechanical properties of Ti3AlC2 by hot pressing TiCx/Al powder mixture’, J. Eur. Ceram. Soc., 2008, 28, (5), 979–988.
- Wang X. H. and Zhou Y. C. : ‘Layered machinable and electrically conductive Ti2AlC and Ti3AlC2 ceramics: a review’, J. Mater. Sci. Technol., 2010, 26, (5), 385–416.
- Khoptiar Y. , Gotman I. and Gutmanas E. Y. : ‘Pressure-assisted combustion synthesis of dense layered Ti3AlC2 and its mechanical properties’, J. Am. Ceram. Soc., 2005, 88, (1), 28–33.
- Ma J. , Li F. , Cheng J. , Fu L. , Qiao Z. , Liu W. and Yang J. : ‘Tribological behavior of Ti3AlC2 against SiC at ambient and elevated temperatures’, Tribol. Lett., 2013, 1–8.
- Huang Z. , Zhai H. , Zhou W. , et al.: ‘Tribological behaviors and mechanisms of Ti3AlC2’, Tribol. Lett., 2007, 27, (2), 129–135.
- Gupta S. and Barsoum M. W. : ‘On the tribology of the MAX phases and their composites during dry sliding: a review’, Wear, 2011, 271, (9–10), 1878–1894.
- Zhai H. X. , Huang Z. Y. , Ai M. X. , Zhou Y. , Zhang Z. L. and Li S. B. : ‘Tribophysical properties of polycrystalline bulk Ti3AlC2’, J. Am. Ceram. Soc., 2005, 88, (11), 3270–3274.
- Gupta S. , Filimonov D. , Zai Barsoum tsev V. , Palanisamy T. and M. W. : ‘Ambient and 550°C tribological behavior of select MAX phases against Ni-based superalloys’, Wear, 2008, 264, (3), 270–278.
- Ai T. , Wang F. , Zhang Y. , Jiang P. and Yuan X. : ‘Synthesis and mechanism of ternary carbide Ti3AlC2 by in situ hot pressing process in TiC-Ti-Al system’, Adv. Appl. Ceram., 2013, 112, (7), 424–429.
- Zou Y. , Sun Z. M. , Hashimoto H. and Cheng L. : ‘Synthesis reactions for Ti3AlC2 through pulse discharge sintering TiH2/Al/C powder mixture’, J. Alloys Compd, 2009, 468, (1), 217–221.
- Liang B. , Wang M. , Sun J. , Zou Q. and Han X. : ‘Preparation of Ti3AlC2 by mechanically activated sintering with Sn aids’, Int. J. Refract. Met. Hard Mater., 2009, 27, (5), 927–930.
- Zhu J. F. , Ye L. and He L. H. : ‘Effect of Al2O3 on the microstructure and mechanical properties of Ti3AlC2/Al2O3 in situ composites synthesized by reactive hot pressing’, Ceram. Int., 2012, 38, (7), 5475–5479.
- Peng C. , Wang C. A. , Song Y. and Huang Y. : ‘A novel simple method to stably synthesize Ti3AlC2 powder with high purity’, Mater. Sci. Eng. A, 2006, A428, (1), 54–58.
- Li S. B. , Zhai H. X. , Bei G. P. , Zhou Y. and Zhang Z. L. : ‘Synthesis and microstructure of Ti3AlC2 by mechanically activated sintering of elemental powders’, Ceram. Int., 2007, 33, (2), 169–173.
- Li S. B. , Xiang W. H. , Zhai H. X. and Zhou Y. : ‘Formation of a single-phase Ti3AlC2 from a mixture of Ti/Al/TiC powders with Sn as an additive’, Mater. Res. Bull., 2008, 43,2092–2099.
- Liang B. , Wang M. , Han X. , Zhou Q. and Li X. : ‘Preparation of Ti3AlC2 by mechanically activated sintering of 3Ti/Al/2C/0.2Sn’, Bull. Mater. Sci., 2010, 33, (4), 401–406.
- Ai M. X. , Zhai H. X. , Zhou Y. , Huang Z. Y. , Zhang Z. L. and Li S. B. : ‘Synthesis of Ti3AlC2 powders using Sn as an additive’, J. Am. Ceram. Soc., 2006, 89, (3), 1114–1117.