Microstructure of Cement-Based Systems: Volume 370: Bonding and Interfaces in Cementitious MaterialsThis book continues the MRS series on characteristics and properties of cementitious materials. In Part I, recent advances in microstructure and related characterization of cementitious systems are the focus. Topics include: microstructures of "normal" cement systems; microstructure of 'unusual' cement systems; image analysis, modelling and fractal analysis applications; and assessment of pore structures. Part II features presentations on interfacial microstructures, as well as information on elastic and fracture properties, transport properties, and the effects of interfaces on fiber-reinforced systems. |
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Page 289
... Volume Fraction , Figure 3. Compressive yield stress versus volume fraction for alumina suspensions of varying particle size and degree of flocculation . Initial volume fraction = 0.20 . in Fig . 2 suggests that the resulting bed would have ...
... Volume Fraction , Figure 3. Compressive yield stress versus volume fraction for alumina suspensions of varying particle size and degree of flocculation . Initial volume fraction = 0.20 . in Fig . 2 suggests that the resulting bed would have ...
Page 440
... FRACTION CONNECTED N0.25 155 . 0.50 ASPECT RATIO 0 1 : 1 : 1 0 1.25 : 1 : 0.8 A 1.5 : 1 : 0.67 2 : 1 : 0.5 +1.59 : 0.794 : 0.794 0.00 0.050 0.075 0.100 ITZ VOLUME FRACTION 0.125 0.150 Figure 3 : Percolated interfacial transition zone ...
... FRACTION CONNECTED N0.25 155 . 0.50 ASPECT RATIO 0 1 : 1 : 1 0 1.25 : 1 : 0.8 A 1.5 : 1 : 0.67 2 : 1 : 0.5 +1.59 : 0.794 : 0.794 0.00 0.050 0.075 0.100 ITZ VOLUME FRACTION 0.125 0.150 Figure 3 : Percolated interfacial transition zone ...
Page 504
... volume fraction ( 9 % ) 45 40 35 30 25 330 25 20 15 10 O 5 0 2 2 Void volume fraction ( % ) = 29.1 + 1.074V , f ( R = 0.990 ) 4 8 Fiber volume fraction , V , ( % ) 6 ( a ) 4 10 12 experimental results model predictions with ( 0-300 MPa ...
... volume fraction ( 9 % ) 45 40 35 30 25 330 25 20 15 10 O 5 0 2 2 Void volume fraction ( % ) = 29.1 + 1.074V , f ( R = 0.990 ) 4 8 Fiber volume fraction , V , ( % ) 6 ( a ) 4 10 12 experimental results model predictions with ( 0-300 MPa ...
Contents
APPLICATION OF AUTOMATED IMAGE ANALYSIS TO | 3 |
A REEVALUATION OF HARDENED CEMENT PASTE | 13 |
AN APPROACH TO QUANTITATIVE IMAGE ANALYSIS | 23 |
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1995 Materials Research air voids andesite bond strength bulk cement paste C-S-H gel calcium calcium hydroxide carbonate cement paste cementitious chemical clinker composite compressive strength concentration Concr crack crystals cured curve debonding density diameter dielectric diffusion dynamic modulus effect elastic elastic moduli embedded length energy ettringite experimental fiber reinforced fibres fly ash fracture surface Garboczi grains groundmass hardened hydration products image analysis increase interfacial transition zone interfacial zone load Materials Research Society matrix measured microcracks microscope microstructure mixes modulus mortar observed parameters phase pore size distribution porosity porous portland cement portlandite Proc pullout rock samples sand scanning electron microscope shear shown in Figure shows silica fume solution specimens stress structure sucrose superplasticizer Symp Table tensile thaumasite thickness values volume fraction w/c ratio water-cement ratio wood fiber yarn zeolite