kw.\*:("Grain size")
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Evaluation of grain shape distribution in polycrystalline materialsMATSUURA, K; ITOH, Y; OHMI, T et al.Materials transactions - JIM. 1994, Vol 35, Num 4, pp 247-253, issn 0916-1821Article
On the modified gamma distribution for representing the size spectra of coagulating aerosol particlesWILLIAMS, M. M. R.Journal of colloid and interface science. 1985, Vol 103, Num 2, pp 516-527, issn 0021-9797Article
Measurement of particle size distribution by image analyserKING, R. P.Powder technology. 1984, Vol 39, Num 2, pp 279-289, issn 0032-5910Article
Particle size distribution of 7Be-aerosols formed in high energy accelerator tunnelsKONDO, K; MURAMATSU, H; KANDA, Y et al.The International journal of applied radiation and isotopes. 1984, Vol 35, Num 10, pp 939-944, issn 0020-708XArticle
Austenite grain size in the continuous casting process : Metallographic methods and evaluationREITER, J; BERNHARD, C; PRESSLINGER, H et al.Materials characterization. 2008, Vol 59, Num 6, pp 737-746, issn 1044-5803, 10 p.Article
Integrating nephelometer response corrections for bimodal size distributionsHASAN, H; LEWIS, C. W.Aerosol science and technology. 1983, Vol 2, Num 4, pp 443-453, issn 0278-6826Article
Description of normal, log-normal and Rosin-Rammler particle populations by a modified version of the beta distribution functionPOPPLEWELL, L. M; CAMPANELLA, O. H; NORMAND, M. D et al.Powder technology. 1988, Vol 54, Num 2, pp 119-125, issn 0032-5910Article
Zur Darstellung Ven Partikelgrössenverteilungen. I: Das Konzept der Modellfunktion un die Anwendung des Maximum-Likelihood-Prinzips zur Schätzung der Modellparameter = Représentation des distributions granulométriques. I: Le concept de la fonction-type et l'application du principe «Maximum-Likelihood» servant à l'estimation des paramètres-types = On the representation of particle-size distributions. I: The concept of model function and application of the principale of Maximum-Likelihood for estimating model parametersHERRMANN, H.Aufbereitungs-Technik. 1984, Vol 25, Num 4, pp 221-227, issn 0004-783XArticle
Quantitative comparison of the microstructural quality of two classes of commercial soft triboalloysSCHOUWENAARS, Rafael; JACOBO, Victor H; ORTIZ, Armando et al.Materials characterization. 2008, Vol 59, Num 3, pp 312-320, issn 1044-5803, 9 p.Article
Sieb-, Sedimentations- und Bildanalyse von grobdispersen Teilchen unterschiedlicher Form = Analyse par tamisage, par sédimentation et analyse d'images pour des particules grossièrement dispersées de différentes formes = Sieving, sedimentation and image analysis of coarsely dispersed particles of varying shapeALEX, W.Aufbereitungs-Technik. 1984, Vol 25, Num 7, pp 415-422, issn 0004-783XArticle
Stability of a crystallizer and its effect on crystal size distributionWADA, T; KATOH, N.Kagaku kōgaku ronbunshū. 1994, Vol 20, Num 3, pp 418-422, issn 0386-216XArticle
Particle size distribution analysis of blended solids by a modified Andreasen pipet methodFARMER, R. W; BECKMAN, J. R.Industrial and engineering chemistry. Process design and development. 1984, Vol 23, Num 2, pp 341-343, issn 0019-7882Article
Analysis of the austenite grain size distribution in plain carbon steelsGIUMELLI, A. K; MILITZER, M; HAWBOLT, E. B et al.ISIJ international. 1999, Vol 39, Num 3, pp 271-280, issn 0915-1559Article
Extreme value analysis of tail departure from log-normality in experimental and simulated grain size distributionsDONEGAN, S. P; TUCKER, J. C; ROLLETT, A. D et al.Acta materialia. 2013, Vol 61, Num 15, pp 5595-5604, issn 1359-6454, 10 p.Article
Phase distribution, grain size and coercivity in nanocomposite permanent materialsFENG, W. C; LI, W; LIU, X. M et al.Journal of magnetism and magnetic materials. 2007, Vol 310, Num 2, pp 2584-2586, issn 0304-8853, 3 p., 3Conference Paper
Comparison of EBSD and conventional methods of grain size measurement of hardmetalsMINGARD, K. P; ROEBUCK, B; BENNETT, E. G et al.International journal of refractory metals & hard materials. 2009, Vol 27, Num 2, pp 213-223, issn 0958-0611, 11 p.Conference Paper
Alternative computation of Dean's overfill ratioBODGE, Kevin R.Journal of waterway, port, coastal, and ocean engineering. 2006, Vol 132, Num 2, pp 133-138, issn 0733-950X, 6 p.Article
Grain size softening in nanocrystalline TiNCONRAD, H; NARAYAN, J; JUNG, K et al.International journal of refractory metals & hard materials. 2005, Vol 23, Num 4-6, pp 301-305, issn 0958-0611, 5 p.Conference Paper
The simulation and selection of shapes for the unfolding of grain size distributionsMCAFEE, Richard; NETTLESHIP, Ian.Acta materialia. 2003, Vol 51, Num 15, pp 4603-4610, issn 1359-6454, 8 p.Article
Determination of the WC grain size in hardmetals using stereology : A critical analysisZEFERINO, L. H; BURITI, A. C; MONTEIRO, S. N et al.International journal of refractory metals & hard materials. 2008, Vol 26, Num 4, pp 367-371, issn 0958-0611, 5 p.Article
Comparison between a computer simulated and an analytical grain size distributionRIOS, P. R.Scripta materialia. 1999, Vol 40, Num 6, pp 665-668, issn 1359-6462Article
An indicator of sand storms in the south of the Tengger DesertGUAN QINGYU; BAOTIAN, Pan; LI NA et al.Theoretical and applied climatology. 2010, Vol 102, Num 1-2, pp 197-203, issn 0177-798X, 7 p.Article
Analysis of the proportionality constant correlating the mean intercept length to the average grain sizeJOO-HWAN HAN; DOH-YEON KIM.Acta metallurgica et materialia. 1995, Vol 43, Num 8, pp 3185-3188, issn 0956-7151Article
Crystal size change with elapsed time of aluminum hydroxide in industrial crystallizationMIKI, H.Kagaku kōgaku ronbunshū. 1994, Vol 20, Num 3, pp 346-351, issn 0386-216XArticle
Round Robin on grain size measurement for advanced technical ceramicsDORTMANS, L. J. M. G; MORRELL, R; DE WITH, G et al.Journal of the European Ceramic Society. 1993, Vol 12, Num 3, pp 205-213, issn 0955-2219Article