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D. Sterio (1984)
The unbiased estimation of number and sizes of arbitrary particles using the disectorJournal of Microscopy, 134
P. Stroeven (1976)
Application of various stereological methods to the study of the grain and the crack structure of concreteJournal of Microscopy, 107
J. Hu, P. Stroeven (2005)
Depercolation threshold of porosity in model cement: approach by morphological evolution during hydrationCement & Concrete Composites, 27
H. Gilkey (1950)
The Zig-Zag Course of Concrete Progress, 46
J. Chermant, L. Chermant, M. Coster, A. Dequiedt, C. Redon (2001)
Some fields of applications of automatic image analysis in civil engineeringCement & Concrete Composites, 23
P Stroeven (1997)
Quantitative Description of Materials Microstructure
P. Stroeven (1989)
Structural Characterization of Steel Fibre Reinforced Concrete
P. Stroeven (1982)
Structural modelling of plain and fibre-reinforced concrete. A morphological approach to a cracked regionComposites, 13
M Carcassès, JP Ollivier, E Ringot (1989)
Analysis of microcracking in concreteActa Stereol., 8
Ewald Wiebel (1987)
Ideas and tools: the invention and development of stereologyImage Analysis & Stereology
P. Stroeven (2003)
IMPLICATIONS OF THE LAW OF AGGREGATION OF MATTER IN CONCRETE TECHNOLOGYBrittle Matrix Composites
EE Underwood (1970)
Quantitative Stereology
H. Stang, B. Mobasher, Surendra Shah (1990)
Quantitative damage characterization in polypropylene fiber reinforced concreteCement and Concrete Research, 20
P. Stroeven, W. Guo (1989)
STRUCTURAL MODELLING AND MECHANICAL BEHAVIOUR OF STEEL FIBRE REINFORCED CONCRETE. FIBRE REINFORCED CEMENTS AND CONCRETES: RECENT DEVELOPMENTS. PROCEEDINGS OF AN INTERNATIONAL CONFERENCE HELD AT THE UNIVERSITY OF WALES, COLLEGE OF CARDIFF, SCHOOL OF ENGINEERING, UNITED KINGDOM, SEPTEMBER 18-20, 1989
P Stroeven, SP Shah (1978)
Testing and Test Methods of Fibre Reinforced Composites
P Stroeven, YM de Haan (1989)
High performance fibre reinforced cement composites
E. Underwood (1967)
Quantitative Evaluation of Sectioned Material
P. Stroeven (1979)
Morphometry of fibre reinforced cementitious materialsMatériaux et Construction, 12
P. Stroeven (1977)
The analysis of fibre distributions in fibre reinforced materials *Journal of Microscopy, 111
EE Underwood (1987)
Stereologia – The first newsletter of the ISSActa Stereol., 6
C Redon, L Chermant, M Coster, JL Chermant (1998)
Measurement of orientation in a discretized space by Fourier Transform: automatic investigation of fibre orientation in a reinforced concreteActa Stereol., 17
C. Redon, L. Chermant, M. Coster, J. Chermant (1998)
Measurements of orientation in a discretized space by Fourier transform: automatic investigation of fiber orientation in a reinforced concreteImage Analysis & Stereology
P. Stroeven (1979)
Geometric probability approach to the examination of microcracking in plain concreteJournal of Materials Science, 14
ER Weibel (1987)
Ideas and tools: the invention and development of stereologyActa Stereol., 6
AA Glagolev (1934)
Quantitative analysis with the microscope by the point methodEng. Min. J., 135
P Stroeven, R Babut (1986)
Fracture mechanics and structural aspects of concreteHeron, 31
JL Granju, E Ringot (1989)
Amorphous iron fiber reinforced concretes and mortars, comparison of the fiber arrangementActa Stereol., 8
P Stroeven (1994)
Comptes Rendus des Neuvièmes Journées Nationals sur les Composites
K. Nemati, P. Stroeven (2001)
Stereological analysis of micromechanical behavior of concreteMaterials and Structures, 34
P Stroeven, W Guo (1989)
Fibre Reinforced Cements and Concretes; Recent Developments
This article presents clear evidence of old roots of stereology. Although the connotation “stereology” dates back 40 years, the discipline is still a newcomer. It is founded on the solid rock of famous, well-accepted theorems, of which those of Cavalieri, Buffon and Cauchy are mentioned as leading examples. Additionally, the article shows the direct link to modern stereological methodology. The latter is available for reliable and economic assessment of relevant features of the structure of cementitious materials as obtained by laboratory experiments.
Materials and Structures – Springer Journals
Published: May 2, 2006
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