. "1"^^ . "Skleni\u010Dka, V\u00E1clav" . . "Saxl, Ivan" . "Interpretation of Profile and Intercept Counts in Microstructure Characterization" . . . "2"^^ . . "0255-5476" . "8"^^ . "RIV/67985840:_____/09:00343472!RIV11-GA0-67985840" . "Trans Tech Publications LTD" . . . . "[A39C8C8C8F19]" . . . . "Zurich" . "2008-06-22+02:00"^^ . . . . "Interpretation of Profile and Intercept Counts in Microstructure Characterization" . . . "Interpretation of Profile and Intercept Counts in Microstructure Characterization"@en . . "Como" . . "RIV/67985840:_____/09:00343472" . . . "P(GA201/06/0302), P(IAA2041301), Z(AV0Z10190503), Z(AV0Z20410507)" . "The results of intercept and profile counts are commonly interpreted as a suitable estimates of the mean grain size as represented e.g. by the grain density N-V, The term grain size is not explicitly defined even when some relation to grain volume and/or mean grain breadth (the mean Ferret diameter) is tacitly assumed. However, the intercept count N-L is directly related to the mean value of grain boundary area per unit volume S-V and the profile count N-A is, under relatively general assumptions, directly related to the mean value of grain junctions per unit volume L-V. Their relation to N-V can be generally written as N-V = c'(N-A)(3/2) = c ''(N-L)(3), but the coefficients c' and c '' strongly depend on the structural characteristics like grain size dispersion, anisotropy etc. and their evaluation is far from being simple. Consequently, whereas the reliable estimates of S-V and L-V result from intercept and profile counts, the estimate of grain density based on them requires a careful consideration."@en . "000263555900038" . "microstructure characterization; intercept count; grain density; metallography"@en . "Interpretation of Profile and Intercept Counts in Microstructure Characterization"@en . "The results of intercept and profile counts are commonly interpreted as a suitable estimates of the mean grain size as represented e.g. by the grain density N-V, The term grain size is not explicitly defined even when some relation to grain volume and/or mean grain breadth (the mean Ferret diameter) is tacitly assumed. However, the intercept count N-L is directly related to the mean value of grain boundary area per unit volume S-V and the profile count N-A is, under relatively general assumptions, directly related to the mean value of grain junctions per unit volume L-V. Their relation to N-V can be generally written as N-V = c'(N-A)(3/2) = c ''(N-L)(3), but the coefficients c' and c '' strongly depend on the structural characteristics like grain size dispersion, anisotropy etc. and their evaluation is far from being simple. Consequently, whereas the reliable estimates of S-V and L-V result from intercept and profile counts, the estimate of grain density based on them requires a careful consideration." . "320152" . . "Recent Developments in the Processing and applications of Structural Metals and Alloys" .