Cited References
28Oft: I. Oftedal, “X-Ray Investigation of SnS2, TiS2, TiSe2, TiTe2,”Z. Phys. Chem., 134, 301–310 (1928) in German. (Equi Diagram; Experimental)
34Pic: M. Picon, “On the Sulfides of Titanium,”Bull. Soc. Chim., 1, 919–926 (1934) in French. (Equi Diagram; Experimental)
37Bil: W. Biltz and P. Ehrlich, “The Sulfides of Titanium,”Z. Anorg. Chem., 234(2), 97–116 (1937) in German. (Equi Diagram; Experimental)
49Ehr: P. Ehrlich, “X-Ray Investigation of Titanium Sulfides and Vanadium Monotelluride,”Z. Anorg. Chem., 260, 13 (1949) in German. (Equi Diagram; Experimental)
53Gol: R.M. Goldhoff, H.L. Shaw, C.M. Craighead, and R.I. Jaffee, “The Influence of Insoluble Phases on the Machinability of Titanium,”Trans. ASM, 45, 941–971 (1953). (Equi Diagram; Experimental)
54Hag: G. Hagg and N. Schonberg, “X-Ray Studies of Sulfides of Titanium, Zirconium, Niobium, and Tantalum,”Arkiv Kemi, 7(40), 371–380 (1954). (Equi Diagram, Crys Structure; Experimental)
54Sch: N. Schonberg, “The Tungsten Carbide and Nickel Arsenide Structures,”Acta Metall., 2, 427–432 (1954). (Equi Diagram, Crys Structure; Experimental)
56Hah: H. Hahn and B. Harder, “On the Crystal Structure of Titanium Sulfides,”Z. Anorg. Chem., 288, 241–256 (1956) in German. (Equi Diagram, Crys Structure; Experimental)
57Ber: L.W. Berger, D.N. Williams, and R.I. Jaffee, “The Effect of Sulphur on the Properties of Titanium and Titanium Alloys,”Trans. ASM, 49, 300–314 (1957). (Equi Diagram; Experimental)
57Hah: H. Hahn and P. Ness, “On the Question of the Existence of Subchalcogenides of Titanium,”Naturwissenschaften, 44, 581 (1957) in German. (Equi Diagram; Experimental)
57Per: R.A. Perkins, “Discussion” of [57Ber],Trans. ASM, 49, 312–314 (1957). (Equi Diagram; Experimental)
57Wad: A.D. Wadsley, “Partial Order in the Non-Stoichiometric Phase Ti2+x S4(0.2<x<1),”Acta Crystallogr., 10, 715–716 (1957). (Crys Structure; Experimental)
58Bar: S.F. Bartram, “The Crystallography of Some Titanium Sulfides,” thesis, Rutgers University, 136 p (1958);Dissertation Abstr., 19, 1216 (1958). (Equi Diagram, Crys Structure; Experimental)
58Jea: Y. Jeannin and J. Benard, “Structure and Stability of Titanium Trisulfides,”Compt. Rend., 246, 614–617 (1958) in French. (Equi Diagram, Crys Structure; Experimental)
58Mct: F.K. McTaggart and A.D. Wadsley, “The Sulphides, Selenides, and Tellurides of Titanium, Zirconium, Hafnium, and Thorium,”Aust. J. Chem., 11, 445–457 (1958). (Crys Structure; Experimental)
59Abe: R.P. Abendroth and A.W. Schlechten, “A Thermodynamic Study of the Titanium-Sulfur System in the Region TiS1.93 to TiS0.80,”Trans. AIME, 215, 145–151 (1959). (Equi Diagram; Experimental)
59Hah: H. Hahn and P. Ness, “The Subchalcogenides of Titanium,”Z. Anorg. Chem., 302, 17–36 (1959). (Equi Diagram; Experimental)
59Jea: Y. Jeannin and J. Benard, “Non-Stoichiometric Phase TiS2: Stability Range and Defects,”Compt. Rend., 248 2875–2877 (1959) in French. (Experimental)
60Jea: Y. Jeannin, “Non-Stoichiometric Phase Ti2S3: Extent, Defects, and Ti8S12 Superstructure,”Compt. Rend., 251, 246–248 (1960) in French. (Equi Diagram, Crys Structure; Experimental)
Indicates key paper. 62Jea: Y. Jeannin, “Contribution to the Crystallochemistry of the Titanium-Sulfur System,”Ann. Chim., 7, 57–83 (1962) in French. (Equi Diagram; Experimental)
63Ben: J. Benard and Y. Jeannin, “Investigations of Nonstoichiometric Sulfides. I. Titanium Sulfides, TiS2 and Ti2S3,” Advan. Chem. Ser. 39, Nonstoichiometric Compounds, American Chemical Society, Washington, DC, 191–203 (1963) (Equi Diagram, Crys Structure; Experimental)
63Har: H. Haraldsen, A. Kjekshus, E. Rost, and A. Steffensen, “On the Properties of TiS3, ZrS3 and HfS3,”Acta Chem. Scand., 17, 1283–1292 (1963) (Equi Diagram, Crys Structure Experimental)
63Jac: Y. Jacquin and Y. Jeannin, “The Titanium-Sulfur System near the Composition TiS,”Compt. Rend., 256, 5362–5365 (1963) in French. (Equi Diagram, Crys Structure; Experimental)
63Jea: Y. Jeannin, “Existence of an Ordered Vacancy Superstructure Ti3S4,”Compt. Rend., 256, 3111–3113 (1963) in French. (Equi Diagram, Crys Structure; Experimental)
63Jel: F. Jellinek, “Sulfides of the Transition Metals of Groups IV, V, and VI,”Arkiv. Kemi, 20(26), 447–480 (1963). (Equi Diagram, Crys Structure; Review)
65Fra: H.F. Franzen and P.W. Gilles, “High-Temperature Vaporization and Thermodynamic Properties of Titanium Monosulfide,”J. Chem. Phys., 42(3), 1033–1038 (1965). (Equi Diagram; Experimental)
66Fli: E. Flink, G.A. Wiegers, and F. Jellinek, “The System Titanium-Sulfur. I. The Structure of Ti3S4 and Ti4S5,”Rec. Trav. Chim., 85, 869–872 (1966). (Equi Diagram, Crys Structure; Experimental)
Indicates key paper. 67Ere: V.N. Eremenko and V.E. Lismovnichii, “Structures and Properties of Titanium-Sulfur Alloys,”Khal'kogenidy (Kiev), 69–78 (1967) in Russian. (Equi Diagram; Experimental)
70Bec: O. Beckmann, H. Boller, and H. Nowotny, “The Crystal Structures of Ta2S2C and Ti4S5 (Ti0.81S),”Monatsh. Chem., 101, 945–955 (1970). (Crys Structure; Experimental)
70Nor: L.J. Norrby and H.F. Franzen, “Refinement of the Crystal Structure of Nonstoichiometric Ti2+x S4,”J. Solid State Chem., 2, 36–41 (1970). (Crys Structure; Experimental)
70Tak: S. Takeuchi and H. Katsuta, “Characteristics of Nonstoichiometry and Lattice Defects of the TiS2 Phase,”J. Jpn. Inst. Met., 34, 758–763 (1970) in Japanese. (Crys Structure; Experimental)
70Wie: G.A. Wiegers and F. Jellinek, “The System Titanium-Sulfur. II. The Structure of Ti3S4 and Ti4S5,”J. Solid State Chem., 1, 519–525 (1970). (Equi Diagram, Crys Structure; Experimental)
71Tro: E. Tronc and M. Huber, “Polytypism in the Ti−S System: 12H Polytype TiS1.6,”C.R. Acad. Sci., Paris, 272, 1018–1021 (1971) in French. (Crys Structure; Experimental)
73Til: R.J.D. Tilley, “An Electron Microscope Study of Some Titanium Sulphides,”J. Solid State Chem., 7, 213–221 (1973). (Experimental)
73Tro: E. Tronc and M. Huber, “Polytypism in the Titanium-Sulfur System,”J. Phys. Chem. Solids, 34, 2045–2058 (1973). (Equi Diagram, Crys Structure; Experimental)
75Chi: R.R. Chianelli, J.C. Scanlon, and A.H. Thompson, “Structure Refinement of Stoichiometric TiS2,”Mater. Res. Bull., 10, 1379–1382 (1975). (Equi Diagram, Crys Structure; Experimental)
75Fur: S. Furuseth, L. Brattas, and A. Kjekshus, “On the Crystal Structures of TiS3, ZrS3, ZrSe3, HfS3, and HfSe3,”Acta Chem. Scand. A, 29, 623–631 (1975). (Crys Structure; Experimental)
75Rie: C. Riekel and R. Schollhorn, “Structure Refinement of Nonstoichiometric TiS2,”Mater. Res. Bull., 10, 629–634 (1975). (Crys Structure; Experimental)
75Tho: A.H. Thompson, F.R. Gamble, and C.R. Symon, “The Verification of the Existence of TiS2,”Mater. Res. Bull., 10, 915–920 (1975). (Equi Diagram, Crys Structure; Experimental)
75Tro: P.E. Tronc, R. Moret, J.J. Legendre, and M. Huber, “Refined Structure of the 12R Polytype Ti8S12,”Acta Crystallogr., B31, 2800–2804 (1975). (Crys Structure; Experimental)
76Leg: J.L. Legendre and M. Huber, “A Method of Structural Resolution for Polytypes. Application to the Titanium-Sulfur Polytype 26H,”Acta Crystallogr., B32, 3209–3213 (1976) in French. (Crys Structure; Experimental)
76Mor1: R. Moret and M. Huber, “Structure of a New Sulfur-Titanium Polytype: 24R,”Acta Crystallogr., B32, 1302–1303 (1976) in French. (Crys Structure; Experimental)
76Mor2: R. Moret, M. Huber, and R. Comes, “Diffuse Scattering and Titanium Short-Range Order in Ti1x S2,”Phys. Status Solidi (a), 38, 695–700 (1976). (Crys Structure; Experimental)
77Leg: J.J. Legendre and M. Huber, “Formation of Titanium Sulphide Hexagonal Polytypes,”Acta Crystallogr., A33, 971–975 (1977). (Crys Structure; Experimental)
Indicates key paper. 77Mik: J.C. Mikkelsen, “P-T-X Phase Diagram for Ti−S from 60 to 75 Atomic Percent Sulfur,”Nuovo Cimento, 38(2), 378–386 (1977). (Equi Diagram; Experimental)
78Leg: J.J. Legendre and M. Huber, “Two New Polytype Structures in the Titanium-Sulfur System: 16H and 18H,”Acta Crystallogr., A34, 982–986 (1978) in French. (Crys Structure; Experimental)
78Mor: R. Moret, E. Tronc, M. Huber, and R. Comes, “Two-Dimensional Model for Titanium Ordering in the Ti1+x S2 Polytypes,”Philos. Mag. B, 38(2), 105–119 (1978). (Crys Structure; Experimental)
79Ban1: Y. Bando, M. Saeki, M. Onoda, I. Kawada, and M. Nakahira, “(4H)3–6C-Type Superstructure of TiS1.51 as Revealed by High-Resolution Electron Microscopy,”Acta Crystallogr., B35, 2522–2525 (1979). (Crys Structure; Experimental)
79Ban2: Y. Bando, M. Saeki, Y. Sekikawa, Y. Matsui, S. Horiuchi, and M. Nakahira, “(4H)2–4C Type Superstructure of TiS1.46 as Determined by High-Resolution Electron Microscopy,”Acta Crystallogr., A35, 564–569 (1979). (Crys Structure; Experimental)
79Ono: M. Onoda, M. Saeki, and I. Kawada, “Superstructure of Ti2S3(4H),”Z. Anorg. Chem., 457, 62–74 (1979). (Equi Diagram, Crys Structure; Experimental)
80Leg: J.J. Legendre and M. Huber, “Generation of Polytypic Structures by Thermally Induced Expansion of Stacking Faults in a Titanium Sulphide Single Crystal,”Acta Crystallogr., 1031–1032 (1980). (Equi Diagram, Crys Structure; Experimental)
80Mor: R. Moret and E. Tronc, “Comments on (4H)2–4C Type Superstructure of TiS1.46 as Determined by High-Resolution Electron Microscopy by Y. Bando, M. Saeki, Y. Sekikawa, Y. Matsui, S. Horiuchi and M. Nakahira,”Acta Crystallogr., B36, 2854–2855 (1980). (Crys Structure; Experimental)
81Tro: E. Tronc and R. Moret, “Structural Aspects of the Metal-Metal Interactions in the Ti1+x S2 Materials,”J. Solid State Chem., 36, 97–106 (1981). (Crys Structure; Experimental)
82Sae1: M. Saeki and M. Onoda, “The Preparation of Ti5S8,”Bull. Chem. Soc. Jpn., 55, 113–116 (1982). (Equi Diagram, Crys Structure; Experimental)
Indicates key paper. 82Sae2: M. Saeki and M. Onoda, “The Phase Relation of the Titanium-Sulfur System,”Bull. Chem. Soc. Jpn., 55, 3144–3146 (1982). (Equi Diagram; Experimental)
83Leg: J.J. Legendre, R. Moret, E. Tronc, and M. Huber, “Ti1+x S2 Polytypes,” inCrystal Growth and Characterization of Polytype Structures, Vol. 7, P. Krishna, Ed., Pergamon Press, New York, 309 (1983). (Equi Diagram, Crys Structure; Review)
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Thermodynamic calculations have been made using computer programs generously made available by E.-Th. Henig and H.L. Lukas, the Max-Planck Institute, Stuttgart, Federal Republic of Germany. This work was jointly funded by the Office of Naval Research and the National Bureau of Standards through the Metallurgy Division and the Office of Standard Reference Data. Literature searched through 1984. Dr. Murray is the ASM/NBS Data Program Category Editor for binary titanium alloys.
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Murray, J.L. The S−Ti (Sulfur-Titanium) system. Bulletin of Alloy Phase Diagrams 7, 156–163 (1986). https://doi.org/10.1007/BF02881555
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DOI: https://doi.org/10.1007/BF02881555