Evaluated material properties for a sintered α-alumina

Journal of the American Ceramic Society

Volumn 80, Issue 8, 1997, Pages 1919-1928

  Munro, Ronald G ^a,b,c  

^a NATIONAL INSTITUTE OF STANDARDS AND TECHNOLOGY   (United States)

^b Data Technologies Group   (United States)

^c AMERICAN CERAMIC SOCIETY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

ACTIVATION ENERGY; BENDING STRENGTH; COMPRESSIVE STRENGTH; CREEP; CRYSTALLOGRAPHY; DENSITY (SPECIFIC GRAVITY); ELASTIC MODULI; FRACTURE TOUGHNESS; SPECIFIC HEAT OF SOLIDS; THERMAL CONDUCTIVITY OF SOLIDS; THERMAL DIFFUSION IN SOLIDS; THERMAL EXPANSION;

FRICTION COEFFICIENT; POISSON'S RATIO; SHEAR MODULUS; WEAR COEFFICIENT;

SINTERED ALUMINA;

EID: 0031197257     PISSN: 00027820     EISSN: None     Source Type: Journal    
DOI: 10.1111/j.1151-2916.1997.tb03074.x     Document Type: Review

References (64)

1. W. H. Gitzen, Alumina as a Ceramic Material; pp. 1-253. American Ceramic Society, Columbus, OH, 1970.
2. R. N. Kleiner, Handbook of Materials Science, Vol. II, Metals, Composites, and Refractory Materials; pp. 355-85. Edited by C. T. Lynch. CRC Press, Cleveland, OH, 1975.
3. "Engineering Property Data on Selected Ceramics, Volume III, Single Oxides," Rept. No. MCIC-HB-07, Metals and Ceramics Information Center, Battelle Columbus Laboratories, Columbus, OH, 1981.
4. E. D. H. Hübner (Ed.), Alumina Processing, Properties, and Applications; pp. 1-317. Springer-Verlag, New York, 1984.
5. R. Morrell, Handbook of Properties of Technical and Engineering Ceramics, Part 2: Data Reviews: Section I: High-Alumina Ceramics; pp. 1-255. Her Majesty's Stationery Office, London, U.K., 1987.
6. L. D. Hart (Ed.), Alumina Chemicals: Science and Technology Handbook; pp. 1-617. American Ceramic Society, Westerville, OH, 1990.
7. K. Komeya and M. Matsui, Materials Science and Technology, Vol. 11, Structure and Properties of Ceramics; pp. 517-65. Edited by M. Swain. VCH, Weinheim, Germany, 1994.
8. G. D. Quinn, "Flexure Strength of Advanced Ceramics: A Round Robin Exercise," Rept. No. MTL TR 89-62, U.S. Army Materials Technology Laboratory, Watertown, MA, 1989.
9. "Enabling Technologies for Unified Life-Cycle Engineering of Structural Components," Publication NMAB-455, National Materials Advisory Board, National Academy Press, Washington, DC, 1991.
10. J. Rumble Jr. and J. Carpenter Jr., "Materials STEP into the Future," Adv. Mater. Processes, 142, 23-27 (1992).
11. B. G. Hyde, J. G. Thompson, and R. L. Withers, "Crystal Structures of Principal Ceramic Materials," Mater. Sci. Technol., 11, 1-45 (1994).
12. W. H. Gitzen; see Ref. 1, p. 64.
13. H. Holleck, "Material Selection for Hard Coatings," J. Vacuum Sci. Technol., A4, 2661-69 (1986).
14. M. E. Schlesinger, "Melting Points, Crystallographic Transformation, and Thermodynamic Values"; pp. 883-91 in Engineered Materials Handbook, Vol. 4, Ceramics and Glasses. Edited by S. J. Schneider Jr. ASM International, Metals Park, OH, 1991.
15. 3: A High-Temperature Thermal Expansion Standard," High Temp.-High Pressures, 16, 127-35 (1994).
16. B. N. Taylor and C. E. Kuyatt, "Guidelines for Evaluating and Expressing the Uncertainty of NIST Measurement Results," NIST Tech. Note 1297, U.S. Government Printing Office, Washington, DC, 1993.
17. H. E. Swanson and R. K. Fuyat, "Standard X-ray Diffraction Powder Patterns," National Bureau of Standards Circular 539, Vol. II, pp. 20-23, National Bureau of Standards, Gaithersburg, MD, 1953.
18. 3 Structures," Z. Kristallogr., 117, 235-37 (1962).
19. 3 und ihr Abweichen von der Vegardregel," Z. Kristallogr., 125, 377-403 (1967).
20. S. V. Grum-Grzhimailo and M. V. Klassen-Neklyudova, "Essential Properties of Ruby and Leucosapphire Single Crystals Based on Data in the Literature" pp. 2-11 in Ruby and Sapphire. Edited by L. M. Belyaev. Amerind, New Delhi, India, 1980.
21. 3 at 2170 K," Acta Crystallogr., Sect. B. Struct. Sci., 36, 228-30 (1980).
22. J. B. Wachtman Jr., T. G. Scuderi, and G. W. Cleek, "Linear Thermal Expansion of Aluminum Oxide and Thorium Oxide from 100 to 1100 K," J. Am. Ceram. Soc. 45, 319-23 (1962).
23. A. N. Amatuni, T. I. Malyutina, V. Y. Chekhovskoi, and V. A. Petukhov, "Standard Samples for Dilatometry," High Temp.-High Pressures, 8, 565-70 (1976).
24. R. Morrell; see Ref. 5, p. 19.
25. M. Miyayama, K. Koumoto, and H. Yanagida, "Engineering Properties of Single Oxides"; see Ref. 14, pp. 748-57.
26. 3," J. Am. Ceram. Soc., 49, 355-59 (1966).
27. D. H. Chung and G. Simmons, "Pressure and Temperature Dependences of the Isotropic Elastic Moduli of Polycrystalline Alumina," J. Appl. Phys., 39, 5316-26 (1968).
28. "Standard Test Method for Dynamic Young's Modulus, Shear Modulus, and Poisson's Ratio for Advanced Ceramics by Sonic Resonance," ASTM Designation No. C 1198-91. 1995 Annual Book of ASTM Standards, Vol. 15.01. American Society for Testing and Materials, Philadelphia, PA.
29. T. Goto and O. L. Anderson, "Elastic Constants of Corundum up to 1825 K," J. Geophys. Res. B, 94 [6] 7588-602 (1989).
30. J. Lankford, "Compressive Strength and Microplasticity in Polycrystalline Alumina," J. Mater. Sci., 12, 791-96 (1977).
31. S. W. Freiman, "Brittle Fracture Behavior of Ceramics," Am. Ceram. Soc. Bull., 67, 392-402 (1988).
32. G. D. Quinn and R. Morrell, "Design Data for Engineering Ceramics: A Review of the Flexure Test," J. Am. Ceram. Soc., 74, 2037-66 (1991).
33. "Standard Practice for Reporting Uniaxial Strength Data and Estimating Weibull Distribution Parameters for Advanced Ceramics," Designation C 1239-94a. 1995 Annual Book of ASTM Standards, Vol. 15.01, pp. 356-73. American Society for Testing and Materials, Philadelphia, PA, 1995.
34. D. G. S. Davies, "The Statistical Approach to Engineering Design in Ceramics," Proc. Br. Ceram. Soc., 22, 429-52 (1973).
35. R. M. Spriggs, J. B. Mitchell, and T. Vasilos, "Mechanical Properties of Pure, Dense Aluminum Oxide as a Function of Temperature and Grain Size," J. Am. Ceram. Soc., 47, 323-27 (1964).
36. J. Kübler, "Mechanische Charakterisierung von Hochleistungskeramik Festigkeitsuntersuchung," Rept. No. EMPA-Nr. 129′747, pp. 77-88, Swiss Federal Laboratories for Materials Testing and Research, Duebendorf, Switzerland, 1993.
37. M. Khantha, "The Brittle-to-Ductile Transition, II: Dislocation Dynamics and the Strain-Rate Dependence of the Transition Temperature," Scr. Metall. Mater., 31, 1355-60 (1994).
38. H. Kim and S. Roberts, "Brittle-Ductile Transition and Dislocation Mobility in Sapphire," J. Am. Ceram. Soc., 77, 3099-104 (1994).
39. C. R. Cheeseman and G. W. Groves, "The Mechanism of the Peak in Strength and Toughness at Elevated Temperatures in Alumina Containing a Glass Phase," J. Mater. Sci., 20, 2614-22 (1985).
40. K. Wefers, "Nomenclature, Preparation, and Properties of Aluminum Oxides, Oxide Hydroxides, and Trihydroxides"; pp. 13-22 in Alumina Chemicals: Science and Technology Handbook. Edited by L. D. Hart. American Ceramic Society, Westerville, OH, 1990.
41. I. J. McColm, Ceramic Hardness: pp. 1-10. Plenum Press, New York, 1990.
42. R. M. Anderson, "Testing Advanced Ceramics," Adv. Mater. Processes, 135, 31-36 (1989).
43. "Standard Test Method for Microhardness of Materials," Designation No. E 384. 1995 Annual Book of ASTM Standards, Vol. 03.01. American Society for Testing and Materials, Philadelphia, PA, 1995.
44. E. Meyer, "Unterschugen über Prüfune and Härte," Z. Ver. Dtsch. Ing., 52, 645-54 (1908).
45. B. W. Mott, Micro-Identation Hardness Testing; pp. 101-107. Butterworths Scientific Publications, London, U.K., 1956.
46. P. M. Sargent, "Use of the Indentation Size Effect on Microhardness for Materials Characterization"; pp. 160-74 in Microindentation Techniques in Materials Science and Engineering, ASTM STP 889. Edited by P. J. Blau and B. R. Lawn. American Society for Testing and Materials, Philadelphia, PA, 1986.
47. 2 (PSZ) Ceramics for Slurry Valves," J. Soc. Mater. Sci., Jpn., 35, 41-47 (1986).
48. Y. S. Wang, S. M. Hsu, and R. G. Munro, "A Model for Ceramic Sliding Wear"; pp. 1225-32 in Proceedings of the Japan International Tribology Conference, Vol. II (Nagoya, Japan). Japanese Society of Tribologists, Tokyo, Japan, 1990.
49. H. H. K. Xu, C. P. Ostertag, and R. F. Krause Jr., "Effect of Temperature on Toughness Curves in Alumina," J. Am. Ceram. Soc., 78, 260-62 (1995).
50. R. W. Evans and B. Wilshire, "Creep Property Characterization of Ceramics," Met. Mater. (Inst. Met.), 1, 363-66 (1991).
51. S. M. Wiederhorn, B. J. Hockey, and T. J. Chuang, "Creep and Creep Rupture of Structural Ceramics"; pp. 555-76 in Toughening Mechanisms in Quasi-Brittle Materials. Edited by S. P. Shah. Kluwer, Dordrecht, The Netherlands, 1991.
52. R. C. Folweiler, "Creep Behavior of Pore-Free Polycrystalline Aluminum Oxide," J. Appl. Phys., 32, 773-78 (1961).
53. A. G. Robertson, D. S. Wilkinson, and C. H. Caceres, "Creep and Creep Fracture in Hot-Pressed Alumina," J. Am. Ceram. Soc., 74, 915-21 (1991).
54. T. Ohji, A. Nakahira, T. Hirano, and K. Niihara, "Tensile Creep Behavior of Alumina/Silicon Carbide Nanocomposite," J. Am. Ceram. Soc., 77, 3259-62 (1994).
55. F. P. Bowden and D. Tabor, The Friction and Lubrication of Solids: pp. 350-64. Clarendon, London, U.K., 1964.
56. S. M. Hsu, D. S. Lim, Y. S. Wang, and R. G. Munro, "Ceramics Wear Maps: Concept and Method Development," Lubr. Eng., 47, 49-54 (1991).
57. X. Dong, S. Jahanmir, and S. M. Hsu, "Tribological Characteristics of α-Alumina at Elevated Temperatures," J. Am. Ceram. Soc., 74, 1036-44 (1991).
58. R. S. Gates, S. M. Hsu, and E. E. Klaus, "Tribochemical Mechanism of Alumina with Water," Tribal. Trans., 32, 357-63 (1989).
59. R. Morrell; see Ref. 5, p. 17.
60. D. W. Lee and W. D. Kingery, "Radiation Energy Transfer and Thermal Conductivity of Ceramic Oxides," J. Am. Ceram., Soc., 43, 594-607 (1960).
61. 3 at High Temperatures," J. Am. Ceram. Soc., 48, 31-34 (1965).
62. R. Morrell; see Ref. 5, p. 20.
63. D. P. H. Hasselman, R. Syed, and T. Y. Tien, "The Thermal Diffusivity and Conductivity of Transformation-Toughened Solid Solutions of Alumina and Chromia," J. Mater. Sci., 20, 2549-2556 (1985).
64. J. B. Wachtman, Mechanical Properties of Ceramics; pp. 89-115. Wiley, New York, 1996.