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16. Katzman, Howard A.: Fibre Coatings for the Fabrication of GraphiteReinforced Magnesium Composites. J. Mater. Sci., vol. 22, no. 1, Jan. 1987, pp. 144-148.

17. Phillips, K.; Perry, A. J.; Hollox, G. E.; De LaMotte, E.; Hintermann, H. E.; and Gass, H.: The Mechanical Properties of Carbon Fibres Coated With Titanium Carbide. J. Mater. Sci., vol. 6, no. 3, Mar. 1971, pp. 270-273.

18. Aggour, L.; Fitzer, E.; Ignotowitz, E.; and Sahebkar, M.: Chemical Vapour Deposition of Pyro-Carbon, SiC, TiC, TiN, Si and Ta on Different Types of Carbon Fibres. Carbon, vol. 12, no. 3, June 1974, pp. 358-362.

19. Warren, R.; and Carlsson, M.: TiC and TiN-Coated Carbon Fibers. Chemical Vapor Deposition 1975. J. M. Blocker, H. E. Hintermann, and L. H. Hall, eds., Electrochemical Soc., 1975, pp. 623-633.

20. Linger, K. R.; and Pratchett, A. G.: Carbon Fibre Composite Materials for Intermediate Temperatures. Composites, July 1977, pp. 139-144.

21. Brennfleck, K.; Fitzer, E.; Schock, G.; and Dietrich, M.: CVD of SiCInterlayers and Their Interaction With Carbon Fibers and With Multi-Layered NbN-Coatings. Chemical Vapor Deposition 1984, M. Robinson, G. W. Cullen, C. H. J. Van den Brekel, and J. M. Blocher, eds., Electrochemical Soc., 1984, pp. 649-662.

22. Singh, R. N.: LPCVD of Boron Nitride From B-Trichloroborazine. Chemical Vapor Deposition 1987, G. W. Cullen, ed., Electrochemical Soc., 1987, pp. 543-551.

23. Singh, R. N.; and Brun, M. K.: Effect of Boron Nitride Coating on Fiber-Matrix Interactions. Adv. Ceram. Mater., vol. 3, no. 3, 1988, pp. 235-237.

24. Jackson, P. W.; and Marjoram, J. R.: Compatibility Studies of Carbon Fibres With Nickel and Cobalt. J. Mater. Sci., vol. 5, 1970, pp. 9-23.

25. Schwartz, M. M.: Composite Materials Handbook. McGraw-Hill, Inc., c. 1984.

26. Beetz, C. P., Jr.; and Schmitt, R. J.: Electroplated Carbon/Graphite Fibers. SAMPEJ., vol. 19, no. 3, May/June 1983, pp. 6-9.

27. Ohsaki, T.; Yoshida, M.; Fukube, Y.; and Nakamura, K.: The Properties of Carbon Fiber Reinforced Aluminum Composites Formed by the Ion-Plating Process and Vacuum Hot Pressing. Thin Solid Films, vol. 45, no. 3, Sept. 15, 1977, pp. 563-568.

28. Rashid, M. S.; and Wirkus, C. D.: Development of Carbide Coatings for Graphite Filaments. Ceram. Bull., vol. 51, no. 11, 1972, pp. 836-839.

29. Nieh, T. G.; and Vidoz, A. E.: Carbide Coatings on Graphite Fibers by Liquid Metal Transfer Agent Method. J. American Ceram. Soc, vol. 65, no. 5, 1982, pp. 227-230.

30. Hastie, John W.: High Temperature VaporsScience and Technology. Academic Press, Inc., 1975.

31. Sherman, A.: Chemical Vapor Deposition for Microelectronics. Noyes Publ., 1987.

32. Snow, W. R.: An Overview of PECVD Reactor System Capabilities for the Deposition of Electronic Materials. Chemical Vapor Deposition 1987, G. W. Cullen, ed., Electrochemical Soc., 1987, pp. 819-830.

33. Matsumoto, O.; Sasaki, M.; Suzuki, H.; Seshimo, H.; and Uyama, H.: Deposition of Boron Nitride in a Microwave Discharge. Chemical Vapor Deposition 1987, G. W. Cullen, ed., Electrochemical Soc., 1987, pp. 552-561.

34. Bunshah, R. F.: Hard Coatings for Wear Resistance by Physical Vapor Deposition Processes. SAMPE Q., vol. 12, no. 1, Oct. 1980, pp. 10-19.

35. Yajima, S.: Special Heat-Resisting Materials From Organo-Metallic Polymers. Ceram. Bull., vol. 62, no. 8, 1983, pp. 893-898.

36. Seyferth, D.; Wiseman, G. H.; and Prud'homme, C.: A Liquid Silazane Precursor to Silicon Nitride. /. American Ceram. Soc, vol. 66, no. 1, 1983, pp. C-13-C-14.

37. Bolt, J. D.; and Tebbe, F. N.: Aluminum Nitride Fibers From a Thermoplastic Organoaluminum Precursor. Materials Research Society Symposium Proceedings, Volume 108, R. Jaccodine, K. A. Jackson, and R. C. Sundahl, eds., Materials Research Soc., 1988, pp. 337-344.

38. Rees, W. S.; and Seyferth, D.: High-Yield Synthesis of B4C/BN Ceramic Materials by Pyrolysis of Polymeric Lewis Base Adducts of Decaborane (14). J. American Ceram. Soc, vol. 71, no. 4, 1988, pp. C-194-C-196.

39. Yoldas, B. E.: Preparation of Glasses and Ceramics From Metal-Organic Compounds. J. Mater. Sci., vol. 12, no. 6, June 1977, pp. 1203-1208.

40. Johnson, D. W.: Sol-Gel Processing of Ceramics and Glass. Ceram. Bull., vol. 64, no. 12, 1985, pp. 1597-1602.

41. Hunt, Margaret: MMC's for Exotic Needs. Mater. Eng.Compos. Mater., Apr. 1989, pp. 53-56.

42. Kilin, V. S.; Cherednik, E. M.; Schcheglova, L. N.; Ostrovskii, V. S.; and Dergunova, V. S.: Oxidation Resistance of Carbon Fibers With Protective Coatings. Poroshkovaya Metali. vol. 146, no. 2, 1975, pp. 44—47.

43. Perry, A J.; De LaMotte, E.; and Phillips, K.: The Tensile Properties of NickelCoated Carbon Fibres. J. Mater. Sri., vol. 5, no. 11, Nov. 1970, pp. 945-950.

44. Dickinson, Richard C.: Carbon/Carbon Composites: Fabrication and Properties and Selected Experiences. Materials Stability and Environmental Degradation, A. Barkatt, E. D. Verink, Jr., and L. R. Smith, eds., Volume 125 of Materials Research Society Symposium Proceedings, Materials Research Soc., 1988, pp. 3-13.

45. McAllister, Lawrence E.; and Lachman, Walter L.: Multidirectional CarbonCarbon Composites. Fabrication of Composites, A. Kelly and S. T. Mileiko, eds., Elsevier Science Publ. Co., Inc., 1983, pp. 109-175.

46. Fitzer, E.; Gkogkidis, A.; and Heine, M.: Carbon Fibres and Their Composites (A Review). High Temp.—High Pressures, vol. 16, no. 4, 1984, pp. 363-392.

47. Fitzer, E.; and Gkogkidis, A.: Carbon Fiber Reinforced Carbon Composites Fabricated by Liquid Impregnation. Petroleum-Derived Carbons, J. D. Bacha, J. W. Newman, and J. L. White, eds., American Chemical Soc., 1986, pp. 346379.

48. Klein, Allen J.: Carbon/Carbon Composites. Adv. Mater. & Process., vol. 130, issue 5, Nov. 1986, pp. 64-68.

49. Awasthi, S.; and Wood, J. L.: C/C Composite Materials for Aircraft Brakes. Adv. Ceram. Mater., vol. 3, no. 5, 1988, pp. 449-451.

50. Lewis, Clifford F.: The Unique Capabilities of Carbon-Carbon Composites. Mater. Eng.—Compos. Mater., Jan. 1989, pp. 27-31.

51. Adams, Donald F.: Longitudinal Tensile Behavior of Unidirectional CarbonCarbon Composites. J. Compos. Mater., vol. 8', Oct. 1974, pp. 320-332.

52. Fitzer, E.; Geigl, K. H.; and Huttner, W.: The Influence of Carbon Fibre Surface Treatment on the Mechanical Properties of Carbon-Carbon Composites. Carbon, vol. 18, no. 4, 1980, pp. 265-270.

53. Hill, J.; Thomas, C. R.; and Walker, E. J.: Carbon Fibres, Their Place in Modern Technology. Proceedings of the Second International Carbon Fibres Conference, Plastics Inst. (London), 1974, pp. 122-130.

54. Jenkins, M. G.; Mikami, J.; Chang, T.; and Okura, A.: Effect of Fibre Content on the Fracture Resistance of Carbon Fibre/Carbon Matrix Composites. SAMPE J., vol. 24, no. 3, May/June 1988, pp. 32-37.

55. Sheehan, J. E.: Strength and Fracture Characteristics of Carbon and Ceramic Composites. Paper presented at the 37th Pacific Coast Regional Meeting of the American Ceramic Society (San Francisco, California), 1984.

56. Tattersall, H. G.; and Tappin, G.: The Work of Fracture and Its Measurement in Metals, Ceramics and Other Materials. J. Mater. Sci., vol. 1, no. 3, Aug. 1966, pp. 296-301.

57. Rowe, C. R.; and Lowe, D. L.: High Temperature Properties of Carbon Fibers. 13th Biennial Conference on CarbonExtended Abstracts and Program, American Carbon Soc., 1977, pp. 170-171.

58. Feldman, Leslie A.: High-Temperature Creep of Carbon Yarns and Composites. Rep. No. TOR-0086 (6728-02)-2 (Contract F04701-85-C-0086), Aerospace Corp., Sept. 30, 1987.

59. Feldman, L. A.: Creep of Carbon Yarns and Composites at High Temperatures. Rep. No. ATR-88 (3728-02)-2 (Contract No. FO4701-85-C-0086-POO019), Aerospace Corp., Sept. 30, 1988.

60. Sines, George; Yang, Zheng; and Vickers, Brian D.: Creep of Carbon Yarn and Carbon-Carbon Composites at High Temperatures and High Stresses. UCLA-ENG-88-8 (Contract ONR-N00014-85-K-0667), Dep. of Materials Science and Engineering, School of Engineering and Applied Science, Univ. of California at Los Angeles, May 1988. (Available from DTIC as AD A195 224.)

61. Rogers, Donald C.; Shuford, David M.; and Mueller, James I.: Formation Mechanism of a Silicon Carbide Coating for a Reinforced Carbon-Carbon Composite. Materials Review '75, Volume 7 of National SAMPE Technical Conference, Soc. for the Advancement of Material and Process Engineering, 1975, pp. 319-336.

62. Rogers, D. C.; Scott, R. O.; and Shuford, D. M.: Material Development Aspects of an Oxidation Protection System for a Reinforced Carbon-Carbon Composite—For Space Shuttle Leading Edges. Bicentennial of Materials, Volume 8 of National Technical Conference, Soc. for the Advancement of Material and Process Engineering, 1976, pp. 308-337.

63. Shuford, D. M.: Enhancement Coating and Process for Carbonaceous Substrates. U.S. Patent 4,471,023, Sept. 11, 1984.

64. Shuford, D. M.: Composition and Method for Forming a Protective Coating on Carbon-Carbon Substrates. U.S. Patent 4,465,777, Aug. 14, 1984.

65. Strife, James R.; and Sheehan, James E.: Ceramic Coatings for Carbon-Carbon Composites. Ceram. Bull., vol. 67, no. 2, Feb. 1988. pp. 369-374.

66. Maahs, Howard G.; Ohlhorst, Craig W.; Barrett, David M; Ransone, Philip O.; and Sawyer, J. Wayne: Response of Carbon-Carbon Composites to Challenging Environments. Materials Stability and Environmental Degradation, A. Barkatt, E. D. Verink, Jr., and L. R. Smith, eds., Volume 125 of Materials Research Society Symposium Proceedings, Materials Research Soc., 1988, pp. 15-30.

67. Hol/.l. R. A.: Self Protecting Carbon Bodies and Method for Making Same. U.S. Patent 4,515,860, May 7, 1985.

68. Vasilos, T.: Self-Healing Oxidation-Resistant Carbon Structure. U.S. Patent 4,599,256, July 8, 1986.

69. Eitman, D. A.: Refractory Composite Articles. U.S. Patent 4,735,850, Apr. 5, 1988.

70. Gray, P. E.: Oxidation Inhibited Carbon-Carbon Composites. U.S. Patent 4,795,677, Jan. 3, 1989.

71. Johnson, H. V.: Oxidation Resisting Carbon Article. U.S. Patent 1,948,382, Feb. 20, 1934.

72. Araki, T.; Asano, K.; and Koshugi, J.: Process for the Production of Incombustible Carbonaceous Material. U.S. Patent 3,791,847, Feb. 12, 1974.

73. Hooton, N. A.; and Junnasch, N. E.: Coating for Protecting a Carbon Substrate in a Moist Oxidation Environment. U.S. Patent 3,914,508, Oct. 21, 1975.

74. Mazurin, O. V.; Streltsina, M. V.; and Shvaiko-Shvaikovskaya, T. P.: Handbook of Glass DataPart A, Silica Glass and Binary Silicate Glasses, Volume 15 of Physical Sciences Data. Elsevier Science Publ. Co., Inc., 1983; Part B, Single-Component and Binary Non-Silicate Oxide Glasses, Volume 75 of Physical Sciences Data. Elsevier Science Publ. Co., Inc., 1985.

75. Stall, D. R.; Prophet, H.; Chao, J.; Hu, A. T.; and Phillips, E. W.: JANAF Thermochemical Table, Second ed. Dow Chemical Co., 1971.

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