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Mica scanning electron micrograph

Figure 15.7. Scanning electron micrographs of a Ti02-mica pigment prepared by the wet chemical process. Figure 15.7. Scanning electron micrographs of a Ti02-mica pigment prepared by the wet chemical process.
Figure 1.6 Scanning electron micrograph of mica flakes and a cross section of an anatase/mica pigment particle [10]. Figure 1.6 Scanning electron micrograph of mica flakes and a cross section of an anatase/mica pigment particle [10].
Fig. 5.7 Scanning electron micrograph of glass-ceramic heat-treated at 1120 °C, surface-etched to reveal mica platelets in glass matrix [7]. With kind permission of Elsevier... Fig. 5.7 Scanning electron micrograph of glass-ceramic heat-treated at 1120 °C, surface-etched to reveal mica platelets in glass matrix [7]. With kind permission of Elsevier...
Figure 9.18 Scanning electron micrograph of the two fracture surfaces of a mica-containing acrylic thermoset that has undergone tensile failure. The mica particle appears on both fracture surfaces and is at the locus of failure... Figure 9.18 Scanning electron micrograph of the two fracture surfaces of a mica-containing acrylic thermoset that has undergone tensile failure. The mica particle appears on both fracture surfaces and is at the locus of failure...
Fig. 8 A scanning electron microscope micrograph of microwave-joined MaCor and hydroxyapatite, joined at 1020°C for 20 min in a single-mode 2.45 GHz microwave cavity. (MaCor is a mica-platelet reinforced glass ceramic and HAP is a bioceramic material.) (From Ref. f Reprinted with permission of The American Ceramic Society, www. ceramics.org. Copyright 2003. All rights reserved.)... Fig. 8 A scanning electron microscope micrograph of microwave-joined MaCor and hydroxyapatite, joined at 1020°C for 20 min in a single-mode 2.45 GHz microwave cavity. (MaCor is a mica-platelet reinforced glass ceramic and HAP is a bioceramic material.) (From Ref. f Reprinted with permission of The American Ceramic Society, www. ceramics.org. Copyright 2003. All rights reserved.)...
Figure 33 Scanning electron mica-ograph of polystyrene-block-poly(/>ara-phenylene) (respective molecular weights 30.000 and 7.000 g/mol) (a) side view (b) plan view and (c) micrograph of a monolayer of pores in the copolymer fihn. Atomic force microscopy also manifests the honeycomb morphology (d). (Reprinted by permission from Ref. 99, copyright 1994, Macmillan Magazines Ltd.)... Figure 33 Scanning electron mica-ograph of polystyrene-block-poly(/>ara-phenylene) (respective molecular weights 30.000 and 7.000 g/mol) (a) side view (b) plan view and (c) micrograph of a monolayer of pores in the copolymer fihn. Atomic force microscopy also manifests the honeycomb morphology (d). (Reprinted by permission from Ref. 99, copyright 1994, Macmillan Magazines Ltd.)...
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Scanning electron micrograph

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