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Ceramics mechanisms

Young s modulus for [CERAMICS - MECHANICAL PROPERTIES AND BEHAVIOR] (Vol 5)... [Pg.692]

Ceramic-matrix fiber composites, 26 775 Ceramics mechanical properties, 5 613-638 cyclic fatigue, 5 633-634 elastic behavior, 5 613-615 fracture analysis, 5 634-635 fracture toughness, 5 619-623 hardness, 5 626-628 impact and erosion, 5 630 plasticity, 5 623-626 strength, 5 615-619 subcritical crack growth, 5 628—630 thermal stress and thermal shock, 5 632-633... [Pg.159]

Ceramics. See also Advanced ceramics Ceramics mechanical properties Ceramics as electrical materials Ceramics processing Digital library... [Pg.159]

Mostaghaci. H. Ailvamed Ceramic Materials Applicalimis ttf Advanced Material in a High Tech Swirly I. Trans Technical Publishing. Zuerich, Switzerland. 1997 Munz. D. and T. Feel Ceramics Mechanical Pmjterties. Failure Behaviour. [Pg.318]

Munz D, Fett T (1999) Ceramics Mechanical Properties, Failure Behaviour, Materials Selection. Springer, Berlin, Heidelberg, New York... [Pg.159]

Table 15.1 Values of the thermal shock resistance parameters R, R, R"" for a range of ceramic materials where HPSN is hot pressed silicon nitride and RBSN is reaction bonded silicon nitride (reprinted from Table 11.1 on p 213 of Ceramics Mechanical Properties, Failure Behaviour, Materials Selection by Munz and Fett, 1999, published with permission from Springer-Verlag GmbFI)... Table 15.1 Values of the thermal shock resistance parameters R, R, R"" for a range of ceramic materials where HPSN is hot pressed silicon nitride and RBSN is reaction bonded silicon nitride (reprinted from Table 11.1 on p 213 of Ceramics Mechanical Properties, Failure Behaviour, Materials Selection by Munz and Fett, 1999, published with permission from Springer-Verlag GmbFI)...
G. F. Raiser, R. J. Clifton, and M. Ortiz, A Soft-Recovery Plate Impact Experiment for Studying Microcracking in Ceramics, Mechanics of Materials, 10, 1-43 (1990). [Pg.119]

ISO 843-1, Advanced Technical Ceramics, Monolithic Ceramics, Mechanical Properties at Room Temperature, Part 1 Determination of flexural Strength (1995). [Pg.14]

D. Munz and T. Fett, Ceramics Mechanical properties, failure behaviour, materials selection, Springer series in materials science ed. vol. X. Berlin Springer Verlag, 1999. [Pg.334]

Mechanical engineering/ motor construction ceramics Mechanically strong, resistant to abrasion Seals, valves, bearings, brake disks... [Pg.52]

Cutting ceramics Mechanically strong, wear-resistant Cutting blades, knives, drill inserts... [Pg.52]

J. C. Pivin, P. Colombo, M. Sendova-Vassileva, J. Salomon, G. Sagon, and A. Quaranta, Ion-induced conversion of polysiloxanes and polycarbosilanes into ceramics Mechanisms and properties, Nucl. Instr. Meth. Phys. Res. B, 1998, 141, 652-662. [Pg.476]

Danzer, R. (1994) Ceramics mechanical performance and lifetime prediction, in The Encyclopedia of Advanced Materials (eds D. Bloor, R.J. Brook, M.C. Flemings, S. Mahajan, and R.W. Cahn), Pergamon, pp. 385-398. [Pg.570]

See other pages where Ceramics mechanisms is mentioned: [Pg.183]    [Pg.924]    [Pg.325]    [Pg.32]    [Pg.33]    [Pg.34]    [Pg.183]    [Pg.183]    [Pg.183]    [Pg.552]    [Pg.572]    [Pg.608]    [Pg.929]    [Pg.92]    [Pg.606]    [Pg.325]    [Pg.365]    [Pg.325]    [Pg.460]   
See also in sourсe #XX -- [ Pg.213 , Pg.234 ]



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Ceramic mechanics

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