Advertisement

Boron – Molybdenum – Silicon

Refractory metal systems: phase diagrams, crystallographic and thermodyamic data
  • Materials Science International Team, MSIT ®
  • Kostyantyn Korniyenko
  • Tamara Velikanova
  • Peter Rogl
Part of the Landolt-Börnstein - Group IV Physical Chemistry book series (volume 11E2)

Abstract

This document is part of Volume 11 ‘Ternary Alloy Systems: Phase Diagrams, Crystallographic and Thermodynamic Data’, Subvolume E ‘Refractory Metal Systems’, of Landolt-Börnstein – Group IV ‘Physical Chemistry’.

It contains crystallographic and thermodynamic data about the ternary alloy system:B-Mo-Si

Parent documents:

SpringerMaterials home

Introduction

Keywords

refractory metal system crystallographic data lattice parameter Pearson symbol space group thermodynamic data binary systems solid phases invariant equilibria isothermal section temperature-composition section material properties applications 

References

  1. [1955Gea]
    Geach, G.A., Jones, F.O., “VIII. Interactions in Mixtures of Hard Materials at Very High Temperatures” in “Warmfeste und Korrosionsbestandige Sinterwerkstoffe”, 2. Plansee Seminar (De Re Metallica), Benesovsky, F. (Ed.), Metallwerk Plansee, Reutte, 80–91 (1955) (Morphology, Phase Relations, Experimental, 10)Google Scholar
  2. [1956Kie]
    Kieffer, R., Benesovsky, F., Lux, B., “Investigation of the NOWOTNY-Phases” (in German), Planseeber. Pulvermetall., 4 (2), 30–36 (1956) (Crys. Structure, Phase Relations, Experimental, Review, *, 18)Google Scholar
  3. [1957Kud]
    Kudielka, H., Nowotny, H., Findeisen, G., “Investigations in the Systems: V-B, Nb-B, V-B-Si and Ta-B-Si” (in German), Monatsh. Chem., 88 (6), 1048–1055 (1957) (Crys. Structure, Phase Diagram, Phase Relations, Experimental, Review, 19)CrossRefGoogle Scholar
  4. [1957Now1]
    Nowotny, H., Dimakopoulou, E., Kudielka, H., “Investigations in the Ternary Systems: Molybdenum-Silicon-Boron, Tungsten-Silicon-Boron and System: VSi2-TaSi2” (in German), Monatsh. Chem., 88, 180–192 (1957) (Crys. Structure, Morphology, Phase Diagram, Phase Relations, Experimental, Mechan. Prop., Phys. Prop., *, 19)CrossRefGoogle Scholar
  5. [1957Now2]
    Nowotny, H., Kieffer, R., Benesovsky, F., “Silicon Borides of the Transition Metals Vanadium, Niobium, Tantalum, Molybdenum and Tungsten” (in German), Planseeber. Pulvermetall., 5(3), 86–93 (1957) (Crys. Structure, Phase Diagram, Phase Relations, Experimental, Review, *, 23)Google Scholar
  6. [1958Aro]
    Aronsson, B., “The Crystal Structure of Mo5SiB2”, Acta Chem. Scand., 12(1), 31–37 (1958) (Crys. Structure, Experimental, 18)CrossRefGoogle Scholar
  7. [1961Eng]
    English, J.J., “Binary and Ternary Phase Diagrams of Columbium, Molybdenum, Tantalum and Tungsten”, Defence Metals Information Center, Batelle Memorial Institute, Columbus 1, Ohio, 152, 130 (1961) (Phase Diagram, Phase Relations, Review, 1)Google Scholar
  8. [1966Yas]
    Yasinskaya, G.A., “The Wetting of Refractory Carbides, Borides, and Nitrides by Molten Metals” (in Russian), Poroshk. Metall. (Kiev), 43(7), 53–55 (1966) (Morphology, Experimental, Kinetics, 5)Google Scholar
  9. [1980Ino]
    Inoue, A., Sakai, S., Kimura, H., Masumoto, T., Hoshi, A., “Superconductivity of Mo-Si-B and W-Si-B Amorphous-Alloys Obtained by Liquid Quenching”, Scr. Metall., 14, 235–239 (1980) (Morphology, Phase Relations, Experimental, Electr. Prop., Mechan. Prop., Magn. Prop., *, 19)CrossRefGoogle Scholar
  10. [1988Pes]
    Peshev, P., Gyurov, G., Stoyanchev, R., “Molybdenum Silicoboride, a New Superconducting Compound” (in Bulgarian), Izv. Khim. Inst., Bulg. Akad. Nauk, 19(2), 267–271 (1988) (Crys. Structure, Experimental) as quoted by [V-C2]Google Scholar
  11. [1992Rog]
    Rogl, P., “The System B-N-Mo” in “Phase Diagrams of Ternary Boron Nitride and Silicon Nitride Systems”, Rogl, P., Schuster, J. (Eds.), ASM International, Materials Park, Ohio, USA, 64–67 (1992) (Crys. Structure, Phase Diagram, Phase Relations, Thermodyn., Experimental, Review, 10)Google Scholar
  12. [1993Wer]
    Werheit, H., Kuhlmann, U., Laux, M., Lundstroem, T., “Structural and Electronic Properties of Carbon-doped β-Rhombohedral Boron”, Phys. Stat. Sol., B179, 489–511 (1993) (Crys. Structure, Experimental, Electronic Structure, 51)ADSGoogle Scholar
  13. [1995Cos]
    Costa e Silva, A., Kaufman, M.J., “Applications of In Situ Reactions to MoSi2-Based Materials”, Mater. Sci. Eng. A, 195, 75–88 (1995) (Crys. Structure, Morphology, Phase Diagram, Phase Relations, Calculation, Experimental, Mechan. Prop., Phys. Prop., 75)CrossRefGoogle Scholar
  14. [1996Mey1]
    Meyer, M.K., Akinc, M., “Isothermal Oxidation Behavior of Mo-Si-B Intermetallics at 1450°C”, J. Amer. Ceram. Soc., 79(10), 2763–2766 (1996) (Morphology, Experimental, Kinetics, 12) cited from abstractCrossRefGoogle Scholar
  15. [1996Mey2]
    Meyer, M.K., Kramer, M.J., Akinca, M., “Compressive Creep Behavior of Mo5Si3 with the Addition of Boron”, Intermetallics, 4(4), 273–281 (1996) (Crys. Structure, Morphology, Experimental, Mechan. Prop., 27)CrossRefGoogle Scholar
  16. [1997Cos]
    Costa e Silva, A., Kaufman, M.J., “Synthesis of MoSi2-Boride Composites Through In Situ Displacement Reactions”, Intermetallics, 5(1), 1–15 (1997) (Crys. Structure, Morphology, Phase Diagram, Phase Relations, Thermodyn., Calculation, Experimental, Mechan. Prop., Phys. Prop., *, 41)CrossRefGoogle Scholar
  17. [1997Nun]
    Nunes, C.A., Sakidja, R., Perepezko, J.H., “Phase Stability in High Temperature Mo-Rich Mo-B-Si Alloys”, International Symposium on Structural Intermetallics, TMS, Warrendale, PA, USA, 831–839 (1996) (Crys. Structure, Morphology, Phase Relations, Experimental, *, 36) cited from abstract and [2002Kat]Google Scholar
  18. [1998Fri]
    Fries, S., Lukas, H.L., “System B-Si” in “Thermochemical Database for Light Metal Alloys”, Ansara, I., Dinsdale, A.T., Rand, M.H. (Eds.), Office for Official Publications of the European Communities, 2, 126–128 (1998) (Crys. Structure, Phase Diagram, Phase Relations, Thermodyn., Assessment, 1)Google Scholar
  19. [1998Sch]
    Schneibel, J.H., Liu, C.T., Heatherly, L., Kramer, M.J., “Assessment of Processing Routes and Strength of a 3-Phase Molybdenum Boron Silicide (Mo5Si3-Mo5SiB2-Mo3Si)”, Scr. Mater., 38(7), 1169–1176 (1998) (Morphology, Experimental, Mechan. Prop., 8)CrossRefGoogle Scholar
  20. [1999Mey]
    Meyer, M.K., Thom, A.J., Akinc, M., “Oxide Scale Formation and Isothermal Oxidation Behavior of Mo-Si-B Intermetallics at 600–1000°C”, Intermetallics, 7(2), 153–162 (1999) (Morphology, Phase Relations, Experimental, Kinetics, *, 9)CrossRefGoogle Scholar
  21. [1999Sak]
    Sakidja, R., Sieber, H., Perepezko, J.H., “The Formation of Mo Precipitates in a Supersaturated Mo5SiB2 Intermetallic Phase”, Philos. Mag. Lett., 79(6), 351–357 (1999) (Crys. Structure, Morphology, Experimental, 15)CrossRefADSGoogle Scholar
  22. [1999Sch]
    Schneibel, J.H., Liu, C.T., Easton, D.S., Carmichael, C.A., “Microstructure and Mechanical Properties of Mo-Mo3Si-Mo5SiB2 Silicides”, Mater. Sci. Eng. A, A261, 78–83 (1999) (Morphology, Phase Relations, Experimental, Mechan. Prop., *, 14)Google Scholar
  23. [2000Fan]
    Fan, X., Hack, K., Ishigaki, T., “Calculated C-MoSi2 and B-MoSi2 Pseudo-Binary Phase Diagrams for the Use in Advanced Materials Processing”, Mater. Sci. Eng. A, A278, 46–53 (2000) (Phase Diagram, Phase Relations, Thermodyn., Calculation, *, 38)Google Scholar
  24. [2000Hue]
    Huebsch, J.J., Kramer, M.J., Zhao, H.L., Akinc, M., “Solubility of Boron in Mo5+xSi3–y”, Intermetallics, 8, 143–150 (2000) (Crys. Structure, Phase Diagram, Phase Relations, Experimental, *, 11)CrossRefGoogle Scholar
  25. [2000Nun]
    Nunes, C.A., Sakidja, R., Dong, Z., Perepezko, J.H., “Liquidus Projection for the Mo-Rich Portion of the Mo-Si-B Ternary System”, Intermetallics, 8, 327–337 (2000) (Crys. Structure, Morphology, Phase Diagram, Phase Relations, Experimental, *, 15)CrossRefGoogle Scholar
  26. [2000Sak]
    Sakidja, R., Myers, J., Kim, S., Perepezko, J.H., “The Effect of Refractory Metal Substitution on the Stability of Mo(ss)+T2 Two-Phase Field in the Mo-Si-B System”, Inter. J. Ref. Met. Hard Mater., 18(4–5), 193–204 (2000) (Crys. Structure, Morphology, Phase Relations, Experimental, 26)CrossRefGoogle Scholar
  27. [2000Sum1]
    Summers, E.M., Akinc, M., “Wick Debinding of Molybdenum-Silicon-Boron Extrudates”, J. Am. Ceram. Soc., 83(7), 1670–1674 (2000) (Morphology, Experimental, Phys. Prop., 9)CrossRefGoogle Scholar
  28. [2000Sum2]
    Summers, E., Thom, A.J., Cook, B., Akinc, M., “Extrusion and Selected Engineering Properties of Mo-Si-B Intermetallics”, Intermetallics, 8(9–11), 1169–1174 (2000) (Morphology, Experimental, Kinetics, Phys. Prop., 14)CrossRefGoogle Scholar
  29. [2001Bec1]
    Beckman, S., Cook, B.A., Akinc, M., “Analysis of Electrical Resistivity of Compositions within the Mo-Si-B Ternary System. Part I: Single Phase Compounds”, Mater. Sci. Eng. A, 298, 120–126 (2001) (Crys. Structure, Morphology, Phase Relations, Experimental, Electr. Prop., 18)CrossRefGoogle Scholar
  30. [2001Bec2]
    Beckman, S., Cook, B.A., Akinc, M., “An Analysis of Electrical Resistivity of Compositions Within the Mo-Si-B Ternary System. Part II: Multi-Phase Composites”, Mater. Sci. Eng. A, 299(1–2), 94–104 (2001) (Morphology, Phase Relations, Calculation, Experimental, Electr. Prop., 11)Google Scholar
  31. [2001Cho]
    Choe, H., Chen, D., Schneibel, J.H., Ritchie, R.O., “Ambient to High Temperature Fracture Toughness and Fatigue-Crack Propagation Behavior in a Mo-12Si-8.5B (at.%) Intermetallic”, Intermetallics, 9(4), 319–329 (2001) (Morphology, Experimental, Mechan. Prop., 49)CrossRefGoogle Scholar
  32. [2001Fie]
    Field, R.D., Thoma, D.J., Cooley, J.C., Chu, F., Fu, C.L., Yoo, M.H., Hults, W.L., Cady, C.M., “Dislocations in Mo5SiB2 T2 Phase”, Intermetallics, 9(10–11), 863–868 (2001) (Morphology, Experimental, Phys. Prop., 19)CrossRefGoogle Scholar
  33. [2001Ito]
    Ito, K., Ihara, K., Tanaka, K., Fujikura, M., Yamaguchi, M., “Physical and Mechanical Properties of Single Crystals of the T2 Phase in the Mo-Si-B System”, Intermetallics, 9, 591–602 (2001) (Crys. Structure, Experimental, Electr. Prop., Mechan. Prop., Phys. Prop., 42)CrossRefGoogle Scholar
  34. [2001Nie]
    Nieh, T.G., Wang, J.G., Liu, C.T., “Deformation of a Multiphase Mo-9.4Si-13.8B Alloy at Elevated Temperatures”, Intermetallics, 9, 73–79 (2001) (Morphology, Experimental, Mechan. Prop., 21)CrossRefGoogle Scholar
  35. [2001Per]
    Perepezko, J.H., Sakidja, R., Kim, S., Dong, Z., Park, J.S., “Multiphase Microstructures and Stability in High Temperature Mo-Si-B Alloys” in “Structural Intermetallics 2001”, Proc. Third Symposium on Structural Intermetallics, TMS - Miner., Metals & Mater. Soc., Warrendale, PA, USA, 505–514 (2001) (Crys. Structure, Morphology, Phase Diagram, Phase Relations, Thermodyn., Calculation, Experimental, Interface Phenomena, Kinetics, *, 39) cited from abstractGoogle Scholar
  36. [2001Raw]
    Rawn, C.J., Schneibel, J.H., Hoffmann, C.M., Hubbard, C.R., “The Crystal Structure and Thermal Expansion of Mo5SiB2”, Intermetallics, 9, 209–216 (2001) (Crys. Structure, Experimental, Phys. Prop., 26)CrossRefGoogle Scholar
  37. [2001Sch]
    Schneibel, J.H., Kramer, M.J., Uenal, Oe., Wright, R.N., “Processing and Mechanical Properties of a Molybdenum Silicide with the Composition Mo-12Si-8.5B (at.%)”, Intermetallics, 9, 25–31 (2001) (Crys. Structure, Experimental, Mechan. Prop., 19)CrossRefGoogle Scholar
  38. [2001Sun]
    Sungtae, K., Sakidja, R., Dong, Z.F., Perepezko, J.H., Yeon, W.K., “Growth of the Mo5SiB2 Phase in Mo5Si3/Mo2B Diffusion Couple” in “High-Temperature Ordered Intermetallic Alloys IX”, Materials Research Society Symposium Proceedings, 646, Mater. Res. Soc., Warrendale, PA, USA, (5.42), 1–6 (2001) (Crys. Structure, Morphology, Phase Relations, Experimental, Interface Phenomena, Kinetics, 7) cited from abstractGoogle Scholar
  39. [2001Yos]
    Yoshimi, K., Yoo, M.H., Wereszczak, A.A., Borowicz, S.M., George, E.P., Zee, R.H., “Yielding and Flow Behavior of Mo5Si3 Single Crystals”, Scr. Mater., 45(11), 1321–1326 (2001) (Morphology, Experimental, Mechan. Prop., 14) cited from abstractCrossRefGoogle Scholar
  40. [2002Kat]
    Katrych, S., Grytsiv, A., Bondar, A., Rogl, P., Velikanova, T., Bohn, M., “Structural Materials: Metal-Silicon-Boron. On the Melting Behavior of Mo-Si-B Alloys”, J. Alloys Compd., 347(1–2), 94–100 (2002) (Crys. Structure, Phase Diagram, Phase Relations, Experimental, #, 25)CrossRefGoogle Scholar
  41. [2002Men]
    Mendiratta, M.G., Parthasarathy, T.A., Dimiduk, D.M., “Oxidation Behavior of Mo-Mo3Si-Mo5SiB2 (T2) Three Phase System”, Intermetallics, 10(3), 225–232 (2002) (Morphology, Phase Relations, Experimental, Kinetics, 17)CrossRefGoogle Scholar
  42. [2002Sch1]
    Schneibel, J.H., Kramer, M.J., Easton, D.S., “A Mo-Si-B Intermetallic Alloy With a Continuous -Mo Matrix”, Scr. Mater., 46(3), 217–221 (2002) (Crys. Structure, Morphology, Phase Relations, Experimental, Mechan. Prop., 17)CrossRefGoogle Scholar
  43. [2002Sch2]
    Schneibel, J.H., Lin, H.T., “Creep Properties of Molybdenum Silicide Intermetallics Containing Boron”, Mater. High Temp., 19(1), 25–28 (2002) (Morphology, Experimental, Mechan. Prop., 17) cited from abstractGoogle Scholar
  44. [2002Yos]
    Yoshimi, K., Nakatani, S., Suda, T., Hanada, S., Habazaki, H., “Oxidation Behavior of Mo5SiB2-Based Alloy at Elevated Temperatures”, Intermetallics, 10(5), 407–414 (2002) (Morphology, Experimental, Interface Phenomena, Kinetics, 34) cited from abstractCrossRefGoogle Scholar
  45. [2003Cho]
    Choe, H., Schneibel, J.H., Ritchie, R.O., “On the Fracture and Fatigue Properties of Mo-Mo3Si-Mo5SiB2 Refractory Intermetallic Alloys at Ambient to Elevated Temperatures (25°C to 1300°C)”, Metall. Mater. Trans. A, 34(2), 225–239 (2003) (Crys. Structure, Morphology, Phase Relations, Experimental, Mechan. Prop., 60)CrossRefGoogle Scholar
  46. [2003Ito1]
    Ito, K., Kumagai, M., Hayashi, T., Yamaguchi, M., “Room Temperature Fracture Toughness and High Temperature Strength of T2/Moss and (Mo,Nb)ss /T1/T2 Eutectic Alloys in the Mo-Si-B System”, Scr. Mater., 49(4), 285–290 (2003) (Crys. Structure, Morphology, Experimental, Mechan. Prop., 20)CrossRefGoogle Scholar
  47. [2003Ito2]
    Ito, K., Murakami, T., Adachi, K., Yamaguchi, M., “Oxidation Behavior of Mo-9Si-18B Alloy Pack-Cemented in a Si-Base Pack Mixture”, Intermetallics, 11(8), 763–772 (2003) (Crys. Structure, Morphology, Phase Relations, Experimental, Interface Phenomena, Kinetics, 20)CrossRefGoogle Scholar
  48. [2003Nom]
    Nomura, N., Suzuki, T., Yoshimi, K., Hanada, S., “Microstructure and Oxidation Resistance of a Plasma Sprayed Mo-Si-B Multiphase Alloy Coating”, Intermetallics, 11(7), 735–742 (2003) (Crys. Structure, Morphology, Phase Relations, Experimental, Kinetics, 17)CrossRefGoogle Scholar
  49. [2003Sch]
    Schneibel, J.H., “High Temperature Strength of Mo-Mo3Si-Mo5SiB2 Molybdenum Silicides”, Intermetallics, 11(7), 625–632 (2003) (Crys. Structure, Morphology, Phase Relations, Experimental, Mechan. Prop., 22)CrossRefGoogle Scholar
  50. [2003Sup1]
    Supatarawanich, V., Johnson, D.R., Dayananda, M.A., Liu, C.T., “Processing and Properties of Multiphase Mo-Si-B Alloys”, Mater. Sci. Forum, 426–432(5), 4301–4306 (2003) (Crys. Structure, Morphology, Phase Relations, Experimental, Kinetics, Mechan. Prop., 13)CrossRefGoogle Scholar
  51. [2003Sup2]
    Supatarawanich, V., Johnson, D.R., Liu, C.T., “Effects of Microstructure on the Oxidation Behavior of Multiphase Mo-Si-B Alloys”, Mater. Sci. Eng. A, 344(1–2), 328–339 (2003) (Crys. Structure, Morphology, Phase Relations, Experimental, Kinetics, 22)Google Scholar
  52. [2003Yos]
    Yoshimi, K., Nakatani, S., Nomura, N., Hanada, S., “Thermal Expansion, Strength and Oxidation Resistance of Mo/Mo5SiB2 In-Situ Composites at Elevated Temperatures”, Intermetallics, 11(8), 787–794 (2003) (Crys. Structure, Phase Relations, Experimental, Interface Phenomena, Kinetics, Mechan. Prop., Phys. Prop., 21)CrossRefGoogle Scholar
  53. [2004Alu]
    Alur, A.P., Chollacoop, N., Kumar, K.S., “High-Temperature Compression Behavior of Mo-Si-B Alloys”, Acta Mater., 52(19), 5571–5587 (2004) (Morphology, Experimental, Review, Kinetics, Mechan. Prop., 36)CrossRefGoogle Scholar
  54. [2004Hay]
    Hayashi, T., Ito, K., Ihara, K., Fujikura, M., Yamaguchi, M., “Creep of Single Crystalline and Polycrystalline T2 Phase in the Mo-Si-B System”, Intermetallics, 12(7–9), 699–704 (2004) (Morphology, Experimental, Kinetics, Mechan. Prop., 10)CrossRefGoogle Scholar
  55. [2004Ito]
    Ito, K., Hayashi, T., Nakamura, H., “Electrical and Thermal Properties of Single Crystalline Mo5X3 (X = Si, B, C) and Related Transition Metal 5–3 Silicides”, Intermetallics, 12(4), 443–450 (2004) (Crys. Structure, Thermodyn., Experimental, Electr. Prop., Phys. Prop., 24)CrossRefGoogle Scholar
  56. [2004Kru]
    Kruzic, J.J., Schneibel, J.H., Ritchie, R.O., “Fracture and Fatigue Resistance of Mo-Si-B Alloys for Ultrahigh-Temperature Structural Applications”, Scr. Mater., 50(4), 459–464 (2004) (Morphology, Experimental, Mechan. Prop., 18)CrossRefGoogle Scholar
  57. [2004Man]
    Mandal, P., Thom, A.J., Kramer, M.J., Behrani, V., Akinc, M., “Oxidation Behavior of Mo-Si-B Alloys in Wet Air”, Mater. Sci. Eng. A, 371(1–2), 335–342 (2004) (Crys. Structure, Phase Relations, Morphology, Experimental, Interface Phenomena, Kinetics, 23)Google Scholar
  58. [2004Sup]
    Supatarawanich, V., Johnson, D.R., Liu, C.T., “Oxidation Behavior of Multiphase Mo-Si-B Alloys”, Intermetallics, 12(7–9), 721–725 (2004) (Crys. Structure, Morphology, Phase Relations, Experimental, Interface Phenomena, Kinetics, 12)CrossRefGoogle Scholar
  59. [2004Zha]
    Zhao, H.L., Kramer, M.J., Akinc, M., “Thermal Expansion Behavior of Intermetallic Compounds in the Mo-Si-B System”, Intermetallics, 12(5), 493–498 (2004) (Crys. Structure, Phase Relations, Calculation, Experimental, Phys. Prop., 14)CrossRefGoogle Scholar
  60. [2005Hay]
    Hayashi, T., Ito, K., Numakura, H., “Reaction Diffusion of MoSi2 and Mo5SiB2”, Intermetallics, 13(1), 93–100 (2005) (Morphology, Experimental, Transport Phenomena, 13)CrossRefGoogle Scholar
  61. [2005Ito]
    Ito, K., Hayashi, T., Yokobayashi, M., Murakami, T., Numakura, H., “Oxidation Protective Silicide Coating on Mo-Si-B Alloys”, Metall. Mater. Trans. A, 36A(3), 627–636 (2005) (Crys. Structure, Morphology, Phase Relations, Experimental, Interface Phenomena, 26)CrossRefADSGoogle Scholar
  62. [2005Jeh]
    Jehanno, P., Heilmaier, M., Kestler, H., Boening, M., Venskutonis, A., Bewlay, B., Jackson, M, “Assessment of a Powder Metallurgical Processing Route for Refractory Metal Silicide Alloys”, Metall. Mater. Trans. A, 36A(3), 515–523 (2005) (Crys. Structure, Morphology, Phase Diagram, Phase Relations, Assessment, Experimental, Mechan. Prop., 33)CrossRefGoogle Scholar
  63. [2005Kru]
    Kruzic, J.J., Schneibel, J.H., Ritchie, R.O., “Ambient- to Elevated-Temperature Fracture and Fatigue Properties of Mo-Si-B Alloys: Role of Microstructure”, Metall. Mater. Trans. A, 36(9), 2393–2402 (2005) (Morphology, Experimental, Phys. Prop., 43)CrossRefGoogle Scholar
  64. [2005Sak1]
    Sakidja, R., Park, J.S., Hamann, J., Perepezko, J.H., “Synthesis of Oxidation Resistant Silicide Coatings on Mo-Si-B Alloys”, Scr. Mater., 53 (6), 723–728 (2005) (Crys. Structure, Morphology, Phase Relations, Experimental, Interface Phenomena, Kinetics, 29)CrossRefGoogle Scholar
  65. [2005Sak2]
    Sakidja, R., Perepezko, J.H., “Phase Stability and Alloying Behavior in the Mo-Si-B System”, Metall. Mater. Trans. A, 36A(3), 507–514 (2005) (Crys. Structure, Morphology, Phase Relations, Experimental, Electronic Structure, 42)CrossRefADSGoogle Scholar
  66. [2005Sch]
    Schneibel, J.H., Ritchie, R.O., Kruzic, J.J., Tortorelli, P.F., “Optimization of Mo-Si-B Intermetallic Alloys”, Metall. Mater. Trans. A, 36A(3), 525–531 (2005) (Crys. Structure, Morphology, Phase Relations, Experimental, Mechan. Prop., 31)CrossRefGoogle Scholar
  67. [2005Tho]
    Thom, A.J., Kramer, M.J., Mandal, P., Akinc, M., “Wet Air and Simulated Combustion Gas Exposures of Mo-Si-B Alloys”, Scr. Mater., 53(8), 915–919 (2005) (Morphology, Experimental, Interface Phenomena, Kinetics, 10)CrossRefGoogle Scholar
  68. [2005Yan]
    Yang, Y., Chang, Y.A., “Thermodynamic Modeling of the Mo-Si-B System”, Intermetallics, 13(2), 121–128 (2005) (Phase Diagram, Phase Relations, Thermodyn., Calculation, *, 20)CrossRefGoogle Scholar
  69. [2006Alu]
    Alur, A.P., Kumar, K.S., “Monotonic and Cyclic Crack Growth Response of a Mo-Si-B Alloy”, Acta Mater., 54(2), 385–400 (2006) (Morphology, Experimental, Kinetics, Mechan. Prop., 61)CrossRefGoogle Scholar
  70. [2006Beh]
    Behrani, V., Thom, A.J., Kramer, M.J., Akinc, M., “Microstructure and Oxidation Behavior of Nb-Mo-Si-B Alloys”, Intermetallics, 14(1), 24–32 (2006) (Crys. Structure, Morphology, Phase Relations, Experimental, Interface Phenomena, Kinetics, 37)CrossRefGoogle Scholar
  71. [2006Cha1]
    Chang, Y.A., “Phase Diagram Calculations in Teaching, Research, and Industry”, Metall. Mater. Trans. B, 37(1), 7–39 (2006) (Crys. Structure, Morphology, Phase Diagram, Phase Relations, Thermodyn., Calculation, Review, 132)CrossRefGoogle Scholar
  72. [2006Cha2]
    Chang, Y.A., “Phase Diagram Calculations in Teaching, Research, and Industry”, Metall. Mater. Trans. A, 37(2), 273–305 (2006) (Crys. Structure, Morphology, Phase Diagram, Phase Relations, Thermodyn., Calculation, Review, 132)CrossRefGoogle Scholar
  73. [2006Dhe]
    Dheeradhada, V.S., Johnson, D.R., Dayananda, M.A., “Diffusional Analysis of a Multiphase Oxide Scale Formed on a Mo-Mo3Si-Mo5SiB2 Alloy”, J. Phase Equilib. Diffus., 27(6), 582–589 (2006) (Morphology, Experimental, Interface Phenomena, Kinetics, 24)Google Scholar
  74. [2006Jai]
    Jain, P., Alur, A.P., Kumar, K.S., “High Temperature Compressive Flow Behavior of a Mo-Si-B Solid Solution Alloy”, Scr. Mater., 54(1), 13–17 (2006) (Morphology, Experimental, Mechan. Prop., 14)CrossRefGoogle Scholar
  75. [2006Jeh]
    Jehanno, P., Heilmaier, M., Saage, H., Heyse, H., Boening, M., Kestler, H., Schneibel, J.H., “Superplasticity of a Multiphase Refractory Mo-Si-B Alloy”, Scr. Mater., 55(6), 525–528 (2006) (Crys. Structure, Morphology, Experimental, Mechan. Prop., 25)CrossRefGoogle Scholar
  76. [2006Kim]
    Kim, S., Perepezko, J.H., “Interdiffusion Kinetics in the Mo5SiB2 (T2) Phase”, J. Phase Equilib. Diffus., 27(6), 605–613 (2006) (Crys. Structure, Morphology, Phase Relations, Experimental, Kinetics, Transport Phenomena, 28)Google Scholar
  77. [2006Kuz]
    Kuznetsov, S.A., Rebrov, E.V., Mies, M.J.M., de Croon, M.H.J.M., Schouten, J.C., “Synthesis of Protective Mo-Si-B Coatings in Molten Salts and Their Oxidation Behavior in an Air-Water Mixture”, Surf. Coat. Technol., 201(3–4), 971–978 (2006) (Crys. Structure, Morphology, Phase Relations, Experimental, 36)CrossRefGoogle Scholar
  78. [2006Mit]
    Mitra, R., Srivastava, A.K., Prasad, N.E., Kumari, S., “Microstructure and Mechanical Behaviour of Reaction Hot Pressed Multiphase Mo-Si-B and Mo-Si-B-Al Intermetallic Alloys”, Intermetallics, 14(12), 1461–1471 (2006) (Morphology, Phase Relations, Experimental, Mechan. Prop., 48)CrossRefGoogle Scholar
  79. [2006Pas]
    Paswan, S., Mitra, R., Roy, S.K., “Isothermal Oxidation Behaviour of Mo-Si-B and Mo-Si-B-Al Alloys in the Temperature Range of 400–800°C”, Mater. Sci. Eng. A, 424(1), 251–265 (2006) (Morphology, Experimental, Kinetics, 42)CrossRefGoogle Scholar
  80. [2007Alu]
    Alur, A.P., Chollacoop, N., Kumar, K.S., “Creep Effects on Crack Growth in a Mo-Si-B Alloy”, Acta Mater., 55(3), 961–974 (2007) (Morphology, Experimental, Kinetics, Mechan. Prop., 28)CrossRefGoogle Scholar
  81. [2007Kum]
    Kumar, K.S., Alur, A.P., “Deformation Behavior of a Two-Phase Mo-Si-B Alloy”, Intermetallics, 15(5–6), 687–693 (2007) (Morphology, Experimental, Mechan. Prop., 29)CrossRefGoogle Scholar
  82. [2007Pas]
    Paswan, S., Mitra, R., Roy, S.K., “Oxidation Behaviour of the Mo-Si-B and Mo-Si-B-Al Alloys in the Temperature Range of 700-1300°C”, Intermetallics, 15(9), 1217–1227 (2007) (Morphology, Experimental, Interface Phenomena, Kinetics, 48)CrossRefGoogle Scholar
  83. [2007Sek]
    Sekido, N., Sakidja, R., Perepezko, J.H., “Annealing Response of Point Defects in Off-Stoichiometric Mo5SiB2 Phase”, Intermetallics, 15(9), 1268–1276 (2007) (Crys. Structure, Morphology, Experimental, 53)CrossRefGoogle Scholar
  84. [2007Wan]
    Wang, F., Shan, A., Dong, X., Wu, J., “Microstructure and Oxidation Resistance of Laser-Remelted Mo-Si-B Alloy”, Scr. Mater., 56(9), 737–740 (2007) (Crys. Structure, Morphology, Phase Relations, Experimental, Kinetics, 19)CrossRefGoogle Scholar
  85. [2007Yam]
    Yamauchi, A., Yoshimi, K., Kurokawa, K., Hanada, S., “Synthesis of Mo-Si-B In-Situ Composites by Mechanical Alloying”, J. Alloys Compd., 434–435(Spes.), 420–423 (2007) (Morphology, Phase Relations, Experimental, 14)CrossRefGoogle Scholar
  86. [2007Yeh]
    Yeh, C.L., Hsu, W.S., “Preparation of MoB and MoB-MoSi2 Composites by Combustion Synthesis in SHS Mode”, J. Alloys Compd., 440, 193–198 (2007) (Crys. Structure, Phase Relations, Experimental, 21)CrossRefGoogle Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 2010

Authors and Affiliations

  • Materials Science International Team, MSIT ®
    • 1
  • Kostyantyn Korniyenko
  • Tamara Velikanova
  • Peter Rogl
  1. 1.Materials Science International Services GmbHStuttgartGermany

Personalised recommendations