This article provides a review of current research activities that concentrate on Ti3SiC2. We begin with an overview of the crystal and electronic structures, which are the basis to understand this material. Followings are the synthetic strategies that have been exploited to achieve, and the formation mechanism of Ti3SiC2. Then we devote much attentions to the mechanical properties and oxidation/hot corrosion behaviors of Ti3SiC2 as well as some advances achieved recently. At the end of this paper, we elaborate on some new discoveries in the Ti3SiC2 system, and also give a brief discussion focused on the "microstructure -property" relationship.
参考文献
| [1] | M W Barsoum .[J].Pros Solid State Chem,2000,28:201. |
| [2] | S Amini;M W Barsoum;T El-Raghy .[J].Journal of the American Ceramic Society,2007,90:3953. |
| [3] | C F Hu;F Z Li;J Zhang;J M Wang J Y Wang Y C Zhou .[J].Scripta Materialia,2007,57:893. |
| [4] | P Eklund;J P Palmquist;J Howing;D H Trinh T El-Raghy H Hogberg L Hultman .[J].Acta Materials,2007,55:4723. |
| [5] | S Dubois;T Cabioc'h;P Chartier;V Gauthier M Jaouen .[J].Journal of the American Ceramic Society,2007,90:2642. |
| [6] | C F Hu;J Zhang;Y W Bao;J Y Wang M S Li Y C Zhou .[J].Inter J Mater Res,2008,99:8. |
| [7] | W Jeitschko;H Nowotny;F Benesovsky .[J].Monrash fur Chem,1967,98:329. |
| [8] | M W Barsoum;T El-Raghy .[J].Journal of the American Ceramic Society,1996,79:1953. |
| [9] | P Finkel;M W Bawsoum;T El-Raghy .[J].Journal of Applied Physics,1999,85:7123. |
| [10] | R Pampuch;J Lis;L Stobierski;M Tymkiewicz.[J].Journal of the European Ceramic Society,1989(05):283. |
| [11] | T El-Raghy;A Zavaliangos;M W Barsoum;S Kalidinidi .[J].Journal of the American Ceramic Society,1997,80:513. |
| [12] | Y C Zhou;Z M Sun;S Q Chen;Y Zhang .[J].Materials Research Innovations,1998,2:142. |
| [13] | Y C Zhou;Z M Sun .[J].Journal of the European Ceramic Society,2001,21:1007. |
| [14] | T El-Rahgy;M W Barsoum;A Zavaliangos;S Kalidindi .[J].Journal of the American Ceramic Society,1999,82:2855. |
| [15] | M.Radovic;M.W.Barsoum .Tensile properties of Ti_3SiC_2 in the 25-1300 deg C temperature range[J].Acta materialia,2000(2):453-459. |
| [16] | Y W Bao;H B Zhang;Y C Zhou .[J].Zeitschrift fur Metallkunde,2004,95:372. |
| [17] | Y W Bao;Y C Zhou .[J].Journal of Materials Science and Technology,2003,19:197. |
| [18] | M W Barsoum;T El-Raghy;C J Rawn;W D Porter A Payzant C Hubbard .[J].Journal of Physics and Chemistry of Solids,1999,60:429. |
| [19] | Y C Zhou;Z M Sun .[J].Journal of Physics:Condensed Matter,2000,12:L457. |
| [20] | Y C Zhou;Z M Sun .[J].Materials Research Innovations,2000,3:286. |
| [21] | Y C Zhou;Z M Sun;X H Wang;S Q Chen .[J].Journal of Physics:Condensed Matter,2001,13:10001. |
| [22] | C Racault;F Langlais;R Naslain .[J].Journal of Materials Science,1994,29:3384. |
| [23] | J. Lis;Y. Miyamoto;R. Pampuch .Ti_3SiC-based materials prepared by HIP-SHS techniques[J].Materials Letters,1995(3/4):163-168. |
| [24] | S Arunajatesan;A H Carim .[J].Journal of the American Ceramic Society,1995,78:667. |
| [25] | A G Fens;T Orling;Z A Munir .[J].Journal of Materials Research,1999,14:925. |
| [26] | Z F Zhang;Z M Sun;H Hashimoto;T Abe .[J].Journal of the European Ceramic Society,2002,22:2957. |
| [27] | T El-Raghy;M W Barsoum .[J].Journal of the American Ceramic Society,1999,82:2849. |
| [28] | N.F. Gao;Y. Miyamoto;D. Zhang .On physical and thermochemical properties of high-purity Ti_3SiC_2[J].Materials Letters,2002(1/2):61-66. |
| [29] | R.Radhakrishnan;J.J.Williams .Synthesis and high-temperature stability of Ti3SiC2[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,1999(1/2):85-88. |
| [30] | I. M. Low .Depth profiling of phase composition in a novel Ti_3SiC_2-TiC system with graded interfaces[J].Materials Letters,2004(6):927-932. |
| [31] | M. W. Barsoum;T. El-Raghy;L. Farber;M. Amer;R. Christini;A. Adams .The topotactic transformation of Ti{sub}3SiC{sub}2 into a partially ordered cubic Ti(C{sub}0.67Si{sub}0.06) phase by the diffusion of Si into molten cryolite[J].Journal of the Electrochemical Society,1999(10):3919-3923. |
| [32] | W. L. Gu;C. K. Yan;Y. C. Zhou .Reactions between Al and Ti_3SiC_2 in temperature range of 600-650 ℃[J].Scripta materialia,2003(11):1075-1080. |
| [33] | T El-Raghy;M W Barsoum .[J].Journal of Applied Physics,1998,83:112. |
| [34] | P. Mogilevsky;Tai-Il Mah;T. A. Parthasarathy;C. M. Cooke .Toughening of SiC with Ti{sub}3SiC{sub}2 Particles[J].Journal of the American Ceramic Society,2006(2):633-637. |
| [35] | J Emmerlich;D Music;P Eklund;O Wilhelmsson U Jansson J M Schneider H Hogberg L Hultman .[J].Acta Materials,2007,55:1479. |
| [36] | R. Radhakrishnan;C. H. Henager Jr;J. L. Brimhall;S. B. Bhaduri .Synthesis of Ti3SiC2/SiC and TiSi2/SiC composites using displacement reactions in the Ti---Si---C system[J].Scripta materialia,1996(12):1809-1814. |
| [37] | J T Li;Y Miyamoto .[J].Journal of Materials Synthesis and Processing,1999,7:91. |
| [38] | Z. F. ZHANG;Z. M. SUN;H. HASHIMOTO .Rapid Synthesis of Ternary Carbide Ti_3SiC_2 through Pulse-Discharge Sintering Technique from Ti/Si/TiC Powders[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2002(11):3321-3328. |
| [39] | F Goesmann;R Wenzel;R Schmid-Fetzer .[J].Journal of the American Ceramic Society,1998,81:3025. |
| [40] | K Tang;C A Wang;Y Huang;Q F Zan .[J].Journal of Crystal Growth,2001,222:130. |
| [41] | D. P. Riley;E. H. Kisi;E. Wu;A. McCallum .Self-propagating high-temperature synthesis of Ti_3SiC_2 from 3Ti + SiC + C reactants[J].Journal of Materials Science Letters,2003(15):1101-1104. |
| [42] | Z M Sun;S L Yang;H Hashimoto;S Tada T Abe .[J].Materials Transactions,2004,45:373. |
| [43] | Z F Zhang;Z M Sun;H Hashimoto;T Abe .[J].Scripta Materialia,2001,45:1461. |
| [44] | H Klemm;K Tanihata;Y Miyamoto .[J].Journal of Materials Science,1993,28:1557. |
| [45] | J J Nickle;K K Schweitzer;P Luxenberg .[J].Journal of the Less-Common Metals,1972,26:335. |
| [46] | T Goto;T Hirai .[J].Materials Research Bulletin,1987,22:1195. |
| [47] | C Racault;F Langlais;C Bernard .[J].Journal of Materials Science,1994,29:5023. |
| [48] | C Racault;F Langlais;R Naslain;Y Kihn .[J].Journal of Materials Science,1994,29:3941. |
| [49] | E Pickering;W J Lackey;S Crain .[J].Chemical Vapor Deposition,2000,6:289. |
| [50] | S Jacques;H Di-Murro;M P Berthet;H Vincent .[J].Thin Solid Films,2005,478:13. |
| [51] | J Emmerlich;H Hogberg;S Sasvari;P O A Persson L Hultman J P Palmquist U Jansson J M Molina-Aldareguia Z Czigany .[J].Journal of Applied Physics,2004,96:4817. |
| [52] | J P Palmquist;S Li;P O A Persson;J Emmerlich O Wilhelmsson H Hogberg M I Katsnelson B Johansson R Ahuja O Eriksson L Hultman U Jansson .[J].Physical Review B,2004,70:165401. |
| [53] | H Hogberg;L Hultman;J Emmerlich;T Joelsson P Eklund J M Molina-Aldareguia J P Palmquist O Wilhelmsson U Jansson .[J].Surface and Coatings Technology,2005,193:6. |
| [54] | J. J. Hu;J. E. Bultman;S. Patton;J. S. Zabinski .Pulsed laser deposition and properties of M{sub}(n+1)AX{sub}n phase formulated Ti{sub}3SiC{sub}2 thin films[J].Tribology letters,2004(1/2):113-122. |
| [55] | J Lis;R Pampuch .[J].Solid-State Ionicis,1997,101:59. |
| [56] | D P Riley;E H Kisi;D Phelan .[J].Journal of the European Ceramic Society,2006,26:1051. |
| [57] | N. F. Gao;Y. Miyamoto .Dense Ti3SiC2 prepared by reactive HIP[J].Journal of Materials Science,1999(18):4385-4392. |
| [58] | F Sato;J F Li;R Watanabe .[J].Materials Transactions-Japan Institute of Metals,2000,41:605. |
| [59] | S L Yang;Z M Sun;H Hashimoto;T Abe .[J].Journal of Alloys and Compounds,2003,358:168. |
| [60] | Z M Sun;Y C Zhou .[J].Scripta Materialia,1999,41:61. |
| [61] | Y M Luo;W Pan;S I Li;J Chen R G Wang J Q Li .[J].Materials Letters,2002,52:245. |
| [62] | N F Gao;J T Li;D Zhang;Y Miyamoto .[J].Journal of the European Ceramic Society,2002,22:2365. |
| [63] | K Tang;C A Wang;L F Wu;X J Guo X L Xu Y Huang .[J].Ceramics International,2002,28:761. |
| [64] | J F Li;T Matsuki;R Watanabe .[J].Journal of Materials Science,2003,38:2661. |
| [65] | J F Li;T Matsuki;R Watanabe .[J].Journal of the American Ceramic Society,2005,88:1318. |
| [66] | S B Li;H X Zhai .[J].Journal of the American Ceramic Society,2005,88:2092. |
| [67] | S B Li;H X Zhai;Y Zhou;Z L Zhang .[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2005,407:315. |
| [68] | E D Wu;E H Kisi;S J Kennedy;A J Studer .[J].Journal of the American Ceramic Society,2001,84:2281. |
| [69] | E D Wu;E H Kisi;D P Riley;R I Smith .[J].Journal of the American Ceramic Society,2002,85:3084. |
| [70] | D P Riley;E H Kisi;T C Hansen;A W Hewat .[J].Journal of the American Ceramic Society,2002,85:2417. |
| [71] | S L Yang;Z M Sun;H Hashimoto .[J].Journal of Alloys and Compounds,2004,368:312. |
| [72] | R A Guyer;P A Johnson .[J].Physics Today,1999,4:30. |
| [73] | R A Guyer;K R McCall;G N Boitnott .[J].Physical Review Letters,1995,74:3491. |
| [74] | D J Holcomb .[J].Journal of Geophysical Research,1981,86:6235. |
| [75] | M W Barsoum;M Radovic;T Zhen;P Finkel S R Kalidindi .[J].Physical Review Letters,2005,94:085501. |
| [76] | M W Barsoum;A Murugaiah;S R Kalidindi;T Zhen .[J].Physical Review Letters,2004,92:255508. |
| [77] | M W Barsoum;T Zhen;A Zhou;S Basu S R Kalidindi .[J].Physical Review B,2005,71:134101. |
| [78] | S.R. Kalidindi;T. Zhen;M.W. Barsoum .Macroscale constitutive modeling of kinking nonlinear elastic solids[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2006(1/2):95-98. |
| [79] | J. -F. Li;W. Pan;F. Sato;R. Watanabe .Mechanical properties of polycrystalline Ti{sub}3SiC{sub}2 at ambient and elevated temperatures[J].Acta materialia,2001(6):937-945. |
| [80] | M. Radovic;M. W. Barsoum;T. El-Raghy .Effect of temperature, strain rate and grain size on the mechanical response of Ti_3SiC_2 in tension[J].Acta materialia,2002(6):1297-1306. |
| [81] | L Farber;I Levin;M W Barsoum .[J].Philosophical Magazine Letters,1999,79:163. |
| [82] | M W Barsoum;L Farber;T El-Raghy .[J].Metallurgical & Materials Transactions A:Physical Metallurgy & Materials Science,1999,30:1727. |
| [83] | M.W.Barsoum;T.E.Raghy .Room-temperature ductile carbides[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,1999(2):363-369. |
| [84] | D Chen;K Shirato;M W Barsoum;T El-Raghy R O Ritchie .[J].Journal of the American Ceramic Society,2001,84:2914. |
| [85] | M W Barsoum;T El-Raghy;A Zavaliangos;S R Kalidindi .[J].Journal of the American Ceramic Society,2001,84:2855. |
| [86] | M. W. Barsoum;T. Zhen;S. R. Kalidindi;M. Radovic;A. Murugaiah .Fully reversible, dislocation-based compressive deformation of Ti_3SiC_2 to 1 GPa[J].Nature materials,2003(2):107-111. |
| [87] | A Murugaiah;M W Barsoum;S R Kalidindi;T Zhen .[J].Journal of Materials Research,2004,19:1139. |
| [88] | T. Zhen;M.W. Barsoum;S.R. Kalidindi .Effects of temperature, strain rate and grain size on the compressive properties of Ti_3SiC_2[J].Acta materialia,2005(15):4163-4171. |
| [89] | Y C Zhou;Z M Sun .[J].Mater Res Inaovat,1999,3:171. |
| [90] | Y C Zhou;Z M Sun;J H Sun;Y Zhang J Zhou .[J].Zeitschrift fur Metallkunde,2000,91:329. |
| [91] | Z M Sun;Y C Zhou;J Zhou .[J].Philosophical Magazine Letters,2000,80:289. |
| [92] | M. RADOVIC;M. W. BARSOUM;T. EL-RAGHY .TENSILE CREEP OF FINE GRAINED (3-5 #mu#m) Ti_3SiC_2 IN THE 1000-1200 deg C TEMPERATURE RANGE[J].Acta materialia,2001(19):4103-4112. |
| [93] | M. Radovic;M. W. Barsoum;T. El-Raghy .Tensile creep of coarse-grained Ti_3SiC_2 in the 1000-1200 deg C temperature range[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2003(1/2):299-312. |
| [94] | I M Low;S K Lee;B R Lawn .[J].Journal of the American Ceramic Society,1998,81:225. |
| [95] | Y Kuroda;I M Low;M W Barsoum;T El-Raghy .[J].Journal of the American Ceramic Society,2001,37:95. |
| [96] | B. J. Kooi;R. J. Poppen;N. J. M. Carvalho .Ti_3SiC_2: A damage tolerant ceramic studied with nano-indentations and transmission electron microscopy[J].Acta materialia,2003(10):2859-2872. |
| [97] | J Y Wang;Y C Zhou .[J].Physical Review B,2004,69:144108. |
| [98] | J J Gilman .[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,1996,209:74. |
| [99] | I M Low .[J].Journal of the European Ceramic Society,1998,18:709. |
| [100] | Y W Bao;C F Hu;Y C Zhou .[J].Journal of Materials Science and Technology,2006,22:227. |
| [101] | A D Papargyris .[J].Journal of the European Ceramic Society,1998,18:451. |
| [102] | Y W Bao;Y C Zhou;H B Zhang .[J].Journal of Materials Science,2007,42:4470. |
| [103] | T. Zhen;M.W. Barsoum;S.R. Kalidindi .Compressive creep of fine and coarse-grained T_3SiC_2 in air in the 1100-1300 deg C temperature range[J].Acta materialia,2005(19):4963-4973. |
| [104] | S. Myhra;J.W.B. Summers;E.H. Kisi .Ti_3SiC_2--A layered ceramic exhibiting ultra-low friction[J].Materials Letters,1999(1):6-11. |
| [105] | T El-Raghy;P Blau;M W Barsoum .[J].Wear,2000,238:125. |
| [106] | Z M Sun;Y C Zhou .[J].Journal of Materials Science and Technology,2002,18:142. |
| [107] | Y Zhang;G P Ding;Y C Zhou;B C Cai .[J].Materials Letters,2002,55:285. |
| [108] | A. Souchet;J. Fontaine;M. Belin;T. Le Mogne;J.-L. Loubet;M. W. Barsoum .Tribological duality of Ti{sub}3SiC{sub}2[J].Tribology letters,2005(3):341-352. |
| [109] | D. Sarkar;B. Basu;S. J. Cho .Tribological Properties of Ti_3SiC_2[J].Journal of the American Ceramic Society,2005(11):3245-3248. |
| [110] | Y H Koh;H W Kim;H E Kim;J W Halloran .[J].Journal of the European Ceramic Society,2004,24:2339. |
| [111] | E H Lutz;M V Swain;N Clanssen .[J].Journal of the American Ceramic Society,1991,74:19. |
| [112] | X.Q. You;T.Z. Si;N. Liu .Effect of grain size on thermal shock resistance of Al_2O_3-TiC ceramics[J].Ceramics International,2005(1):33-38. |
| [113] | M Aldridge;J A Yeomans .[J].Journal of the European Ceramic Society,1999,19:1769. |
| [114] | T Hirano;K Niihara .[J].Materials Letters,1996,26:285. |
| [115] | N.V.Tzenov;M.W.Barsoum .Synthesis and characterization of Ti_3AlC_2[J].Journal of the American Ceramic Society,2000(4):825-832. |
| [116] | X. H. Wang;Y. C. Zhou .Microstructure and properties of Ti_3AlC_2 prepared by the solid-liquid reaction synthesis and simultaneous in-situ hot pressing process[J].Acta materialia,2002(12):3141-3149. |
| [117] | Y.W. Bao;X.H. Wang;H.B. Zhang .Thermal shock behavior of Ti_3AlC_2 from between 200 deg C and 1300 deg C[J].Journal of the European Ceramic Society,2005(14):3367-3374. |
| [118] | A. Ganguly;T. Zhen;M.W. Barsoum .Synthesis and mechanical properties of Ti_3GeC_2 and Ti_3(Si_xGe_(1-x))C_2 (x = 0.5, 0.75) solid solutions[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2004(1/2):287-295. |
| [119] | A.T.Procopio;T.E.Raghy .Characterization of Ti_4AlN_3[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2000(2):333-337. |
| [120] | I. Salama;T. El-Raghy;M.W. Barsoum .Synthesis and mechanical properties of Nb_2AlC and (Ti,Nb)_2AlC[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2002(1/2):271-278. |
| [121] | H.B. Zhang;Y.C. Zhou;Y.W. Bao .Abnormal thermal shock behavior of Ti_3SiC_2 and Ti_3AlC_2[J].Journal of Materials Research,2006(9):2401-2407. |
| [122] | D P H Hasselman .[J].Journal of the American Ceramic Society,1970,53:490. |
| [123] | Y W Mai;A G Atkins .[J].American Ceramic Society Bulletin,1975,54:593. |
| [124] | W D Kingery .[J].Journal of the American Ceramic Society,1955,38:3. |
| [125] | C C Chiu .[J].Journal of Materials Science,1994,29:2078. |
| [126] | D Lewis .[J].American Ceramic Society Bulletin,1979,58:599. |
| [127] | K Takatori .[J].Journal of Materials Science,1994,29:2115. |
| [128] | Y C Zhou;Z M Sun .[J].Materials Research Innovations,1999,2:360. |
| [129] | X. H. Wang;Y. C. Zhou .Microstructure and properties of Ti_3AlC_2 prepared by the solid-liquid reaction synthesis and simultaneous in-situ hot pressing process[J].Acta materialia,2002(12):3141-3149. |
| [130] | J Gilbert;D R Bloyer;M W Barsoum;T El-Raghy A P Torasia R O Ritchie .[J].Scripta Materialia,2000,42:761. |
| [131] | D Chen;K Shirato;M W Barsoum;T El-Raghy R O Ritchie .[J].Journal of the American Ceramic Society,2001,84:2914. |
| [132] | E. Benko;P. Klimczyk;S. Mackiewicz .cBN-Ti_3SiC_2 composites[J].Diamond and Related Materials,2004(3):521-525. |
| [133] | Y M Luo;S Q Li;W Pan;J Chen R G Wang .[J].Journal of Materials Science,2004,39:3137. |
| [134] | Y Zhang;Y C Zhou .[J].Zeitschrift fur Metallkunde,2000,92:585. |
| [135] | Y Zhang;Z M Sun;Y C Zhou .[J].Materials Research Innovations,1999,3:80. |
| [136] | Y Zhou;B Chen;X Wang;C Yan .[J].Journal of Materials Science and Technology,2004,20:661. |
| [137] | Y H Dent;W Pan;Z H Huang;L H Qi .[J].Rare Metal Materlals and Engineering,2003,32:192. |
| [138] | S.-B. Li;J.-X. Xie;L.-T. Zhang .In situ synthesis of Ti_3SiC_2/SiC composite by displacement reaction of Si and TiC[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2004(1/2):51-56. |
| [139] | L J Wang;W Jiang;L D Chen;G Z Bai .[J].Journal of Materials Research,2004,19:3004. |
| [140] | S. Konoplyuk;T. Abe;T. Uchimoto .Synthesis of Ti_3SiC_2/TiC composites from TiH_2/SiC/TiC powders[J].Materials Letters,2005(18):2342-2346. |
| [141] | S Konoplyuk;T Abe;T Uchimoto;T Takagi .[J].Journal of Materials Science,2005,40:3409. |
| [142] | H Li;L M Peng;M Gong;L H He J H Zhao Y F Zhang .[J].Materials Letters,2005,59:2647. |
| [143] | M X Ai;H X Zhai;Y Zhou;Z Y Huang Z L Zhang M L Guan S B Li .[J].Rare Metal Materlals and Engineering,2005,34:397. |
| [144] | S L Shi;W Pan;M H Fang;Z Y Fang .[J].Applied Physics Letters,2005,87:172902. |
| [145] | S L Shi;W Pan;M H Fang;Z Y Fang .[J].Journal of the American Ceramic Society,2006,89:743. |
| [146] | C Qin;L J Wang;W Jiang;S Q Bai L D Chen .[J].Materials Transactions,2006,47:845. |
| [147] | S.A. Firstov;E.P. Pechkovsky;I.I. Ivanova .High-Temperature Mechanical Properties of Powder Metallurgy: Porous Lightweight Titanium Nanolaminates[J].HIGH TEMPERATURE MATERIALS AND PROCESSES,2006(1/2):47-58. |
| [148] | N. P. Brodnikovskii;M. P. Burka;D. G. Verbilo .STRUCTURE AND MECHANICAL PROPERTIES OF POROUS TITANOSILICON CARBIDE Ti_3Si_C2[J].Powder Metallurgy and Metal Ceramics,2003(7/8):424-432. |
| [149] | Z.M. Sun;A. Murugaiah;T. Zhen .Microstructure and mechanical properties of porous Ti_3SiO_2[J].Acta materialia,2005(16):4359-4366. |
| [150] | L Farber;L Levin;M W Barsoum;T El-Raghy T Tzenov .[J].Journal of Applied Physics,1999,86:2540. |
| [151] | R. Yu;Q. Zhan;L.L. He .Polymorphism of Ti_3SiC_2[J].Journal of Materials Research,2002(5):948-950. |
| [152] | Z M Sun;Y C Zhou;M S Li .[J].Corrosion Science,2001,43:1095. |
| [153] | Z.SUN;Y.ZHOU;M.LI .HIGH TEMPERATURE OXIDATION BEHAVIOR OF Ti_3SiC_2-BASED MATERIAL IN AIR[J].Acta materialia,2001(20):4347-4353. |
| [154] | M W Barsoum;T El-Raghy;L U J T Ogbuji .[J].Journal of the Electrochemical Society,1997,144:2508. |
| [155] | S. L. Yang;Z. M. Sun;H. Hashimoto .Oxidation of Ti_3SiC_2 at 1000 deg C in Air[J].Oxidation of Metals,2003(1/2):155-165. |
| [156] | J B Berkowitz-Mattuck;P E Blackburn;E J Felten .[J].Transactions of the Metallurgical Society of AIME,1965,233:1093. |
| [157] | C G Mckamey;P F Tortorelli;J H DeVan;C A Carmichael .[J].Journal of Materials Research,1992,7:2747. |
| [158] | T C Chou;T G Nieh .[J].Journal of Materials Research,1993,8:1605. |
| [159] | J H Westbrook;D L Wood .[J].Journal of Nuclear Materials,1964,12:208. |
| [160] | H B Zhang;Y C Zhou;Y W Bao;J Y Wang .[J].Journal of Materials Research,2006,21:402. |
| [161] | X H Wang;Y C Zhou .[J].Corrosion Science,2003,45:891. |
| [162] | H X Wang;Y C Zhou .[J].Oxid Metal,2003,59:303. |
| [163] | X H Wang;Y C Zhou .[J].Materials Research Innovations,2003,7:381. |
| [164] | X H Wang;Y C Zhou .[J].Journal of Materials Research,2002,17:2974. |
| [165] | Z Sun;Y Zhou;M Li .[J].Oxid Metal,2002,57:379. |
| [166] | G M Lin;M S Li;Y M Zhang;Y C Zhou .[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2003,360:408. |
| [167] | Z M Sun;Y C Zhou .[J].Key Engineering Materials,2001,49:4341. |
| [168] | G M Liu;M S Li;Y C Zhou .[J].Corrosion Science,2003,45:1217. |
| [169] | G M Liu;M S Li;Y C Zhou;Y M Zhang .[J].Journal of the European Ceramic Society,2005,25:1033. |
| [170] | G M Liu;M S Li;Y C Zhou;Y M Zhang .[J].Journal of the European Ceramic Society,2003,23:1957. |
| [171] | G M Liu;M S Li;Y C Zhou .[J].Journal of Materials Science Letters,2002,21:1755. |
| [172] | M. Li;G. Liu;Y. Zhang .Influence of Al-La Cocementation on the Oxidation Behavior of Ti_3SiC_2-Base Ceramic[J].Oxidation of Metals,2003(1/2):179-193. |
| [173] | R. Yu;Q. Zhan;L.L. He .Si-induced twinning of TiC and formation of Ti_3SiC_2 platelets[J].Acta materialia,2002(16):4127-4135. |
| [174] | R. Yu;L. L. Hev;H. Q. Ye .Effects of Si and Al on twin boundary energy of TiC[J].Acta materialia,2003(9):2477-2484. |
| [175] | J Y Wang;Y C Zhou .[J].Journal of Physics:Condensed Matter,2003,15:5959. |
| [176] | Y C Zhou;H B Zhang;M Y Liu;J Y Wang Y W Bao .[J].Materials Research Innovations,2004,8:97. |
| [177] | E D Wu;J Y Wang;H B Zhang;Y C Zhou K Sun Y J Xue .[J].Materials Letters,2005,59:2715. |
| [178] | H. B. Zhang;Y. C. Zhou;Y. W. Bao .Improving the oxidation resistance of Ti_3SiC_2 by forming a Ti_3Si_(0.9)Al(-0.1)C_2 solid solution[J].Acta materialia,2004(12):3631-3637. |
| [179] | X H Wang;Y C Zhou .[J].Chemistry of Materials,2003,15:3716. |
| [180] | H.B. Zhang;Y.C. Zhou;Y.W. Bao .Intermediate phases in synthesis of Ti_3SiC_2 and Ti_3Si(Al)C_2 solid solutions from elemental powders[J].Journal of the European Ceramic Society,2006(12):2373-2380. |
| [181] | Y C Zhou;J X Chen;J Y Wang .[J].Acta Materials,2006,54:1317. |
| [182] | D.T. Wan;Y.C. Zhou;Y.W. Bao .In situ reaction synthesis and characterization of Ti_3Si(Al)C_2/SiC composites[J].CERAMICS INTERNATIONAL,2006(8):883-890. |
| [183] | Y. C. Zhou;D. T. Wan;Y. W. Bao .In Situ Processing and High-Temperature Properties of Ti_3Si(Al)C_2/SiC Composites[J].International journal of applied ceramic technology,2006(1):47-54. |
| [184] | D T Wan;Y C Zhou;C F Hu;Y W Bao .[J].Journal of the European Ceramic Society,2007,27:2069. |
| [185] | D. T. Wan;C. F. Hu;Y. W. Bao;Y. C. Zhou .Effect of SiC particles on the friction and wear behavior of Ti{sub}3Si(Al)C{sub}2-based composites[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2007(7/8):826-832. |
| [186] | G Roebben;R G Duan;D Sciti;O V D Biest .[J].Journal of the European Ceramic Society,2002,22:2501. |
| [187] | A. Ganguly;T. Zhen;M.W. Barsoum .Synthesis and mechanical properties of Ti_3GeC_2 and Ti_3(Si_xGe_(1-x))C_2 (x = 0.5, 0.75) solid solutions[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2004(1/2):287-295. |
| [188] | W Orellana;G Gutierrez;E Menendez-Proupin;J Rogan G Garcia B Manoun S Saxena .[J].Journal of Physics and Chemistry of Solids,2006,67:2149. |
| [189] | R. AHUJA;Z. SUN;W. LUO .Ab initio investigation on the phase stability of Ti{sub}3SiC{sub}2, Ti{sub}3Si{sub}0.5Ge{sub}0.5C{sub}2, and Ti{sub}3GeC{sub}2 at high pressures[J].High Pressure Research,2006(2):127-130. |
| [190] | B Manoun;H P Liermann;R P Gulve;S K Saxena A Ganguly M W Barsoum C S Zha .[J].Applied Physics Letters,2004,84:2799. |
| [191] | S Gupta;A Ganguly;D Filimonov;M W Barsoum .[J].Journal of the Electrochemical Society,2006,153:J61. |
| [192] | I. M. Low .Depth profiling of phase composition in a novel Ti_3SiC_2-TiC system with graded interfaces[J].Materials Letters,2004(6):927-932. |
| [193] | M W Barsoum;L Farber .[J].Science,1999,284:937. |
| [194] | M W Barsoum;E N Hoffman;R D Doherty;S Gupta A Zavaliangos .[J].Physical Review Letters,2004,93:206104. |
| [195] | Z.M. Sun;T.J. Zhen;M. W. Barsoum .Creep rupture induced silica-based nanofibers formed on fracture surfaces of Ti_3SiC_2[J].Journal of Materials Research,2005(11):2895-2897. |
| [196] | H.B. Zhang;J. Zhang;Y.C. Zhou .Synthesis of AlN nanowires by nitridation of Ti_3Si_(0.9)Al_(0.1)C_2 solid solution[J].Journal of Materials Research,2007(3):561-564. |
| [197] | Y B Tang;H T Cong;Z G Zhao;H M Cheng .[J].Applied Physics Letters,2005,86:153104-153101. |
| [198] | J Liu;X Zhang;Y Zhang;R He J Zhu .[J].J Mater Pies,2001,16:3133. |
| [199] | Q Wu;Z Hu;X Z Wang;Y M Hu Y J Tian Y Chen .[J].Diamond and Related Materials,2004,13:38. |
| [200] | C C Tang;S S Fan;M L Chapelle;P Li .[J].CHEMICAL PHYSICS LETTERS,2001,333:12. |
| [201] | Y Gogotsi;A Nikitin;H H Ye;W Zhou J E Fischer Y Bo H C Foley M W Barsoum .[J].Nature Materials,2003,2:591. |
| [202] | G N Yushin;E N Hoffman;A Nikitin;H H Ye M W Barsoum Y Gogotsi .[J].Carbon,2005,48:2075. |
| [203] | E N Hoffman;G Yushin;M W Barsoum;Y Gogotsi .[J].Chemistry of Materials,2005,17:2317. |
| [204] | H B Zhang;Y C Zhou;Y W Bao;M S Li .[J].Journal of the American Ceramic Society,2008,91:494. |
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