Cellular Ceramics / p2
.9.pdf
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2.9 Cellular Concrete |
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Isu, N., Teramura, S., Ishida, H., Mitsuda, T., |
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Bentur, A., Mindess, S., Fibre Reinforced |
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Cem. Concr. Res. 1995, 25, 249–254. |
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Cementitious Composites, Elsevier Applied |
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28 Mitsuda, T., Sasaki, K., Ishida, H., “Influence |
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Science, London, 1990, 449 pp. |
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of Particle Size of Quartz on the Tobermorite |
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Grutzeck, M.W., Kwan, S., DiCola, M., Cem. |
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Formation” in Autoclaved Aerated Concrete, |
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Concr. Res.2004, 34, 949–955. |
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Wittmann, F.H. (Ed.), A.A. Balkema, Rotter- |
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Low, N.M.P. and Beaudoin, J.J., Cem. Concr. |
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dam, 1992, pp. 19–26; Isu, N., Teramura, S., |
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Res. 1994, 24, 250–258. |
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Ido, K., Mitsuda, T., “Influence of Quartz Par- |
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Da'an, J.-F., Bellini da Cunha, J.A., “Experi- |
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ticle Size on the Chemical and Mechanical |
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mental Determination of AAC Moisture |
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Properties of Autoclaved Lightweight Con- |
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Transport Coefficients under Temperature |
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crete” in Autoclaved Aerated Concrete, Witt- |
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Gradients” in Autoclaved Aerated Concrete, |
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mann, F.H. (Ed.), A.A. Balkema, Rotterdam, |
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Wittmann, F.H. (Ed.), A.A. Balkema, Rotter- |
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1992, pp. 27–34. |
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dam, 1992, pp. 105–111. |
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29 W gner, F., Schober, G., M.rtel, H., Cem. |
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Wittman, X., Sadouki, H., Wittmann, F.H., |
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Concr. Res. 1995, 25, 1621–1626. |
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“Determination of Hydral Diffusion Coeffi- |
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30 Millard, W.R., “The Thermal Performance of |
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cients of AAC – A Combined Experimental |
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European Autoclaved Aerated Concrete” in |
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and Numerical Method” in Autoclaved Aerated |
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Autoclaved Aerated Concrete, Wittmann, F.H. |
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Concrete, Wittmann, F.H. (Ed.), A.A. Balkema, |
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(Ed.), A.A. Balkema, Rotterdam, 1992, |
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Rotterdam, 1992, pp. 113–118. |
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pp. 83–88. |
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Hasegawa, T., “Investigation of Moisture |
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31 Frey, E., “Recent Results on Thermal Conduc- |
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Contents of Autoclaved Lightweight Concrete |
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tivity and Hydroscopic Moisture Content of |
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Walls in Cold Districts” in Autoclaved Aerated |
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AAC” in Autoclaved Aerated Concrete, |
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Concrete, Wittmann, F.H. (Ed.), A.A. Balkema, |
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Wittmann, F.H. (Ed.), A.A. Balkema, Rotter- |
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Rotterdam, 1992, pp. 125–132. |
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dam, 1992, pp. 89–92. |
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Grim, R.E., Clay Mineralogy, McGraw-Hill |
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32 Lippe, K.F., “The Effect of Moisture on the |
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Book Company, New York, 1968, 596 pp. |
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Thermal Conductivity of AAC” in Autoclaved |
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Senbu, O., Kamada, E., “Mechanism of Frost |
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Aerated Concrete, Wittmann, F.H. (Ed.), |
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Deterioration of AAC” in Autoclaved Aerated |
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A.A. Balkema, Rotterdam, 1992, pp. 99–102. |
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Concrete, Wittmann, F.H. (Ed.), A.A. Balkema, |
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33 Zhou, W., Feng, N., Yan, G., “Fracture Energy |
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Rotterdam, 1992, pp. 153–156. |
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Experiments of AAC and its Fractal Analysis” |
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Hama, Y., Kamada, E., Tabata, M., Watanabe, |
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in Autoclaved Aerated Concrete, Wittmann, |
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T., “Frost Resistance of Increased Density |
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F.H. (Ed.), A.A. Balkema, Rotterdam, 1992, |
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Autoclaved Aerated Concrete” in Autoclaved |
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pp. 135–140. |
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Aerated Concrete, Wittmann, F.H. (Ed.), |
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34 Slowik, V., Wittmann, F.H., “Fracture Energy |
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A.A. Balkema, Rotterdam, 1992, pp. 157–163. |
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and Strain Softening of AAC” in Autoclaved |
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Houst, Y., Wittmann, “Bibliography of Auto- |
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Aerated Concrete, Wittmann, F.H. (Ed.), |
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claved Aerated Concrete” in Autoclaved Aera- |
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A.A. Balkema, Rotterdam, 1992, pp. 141–145; |
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ted Concrete, Moisture and Properties, |
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Alvaredo, A.M., Wittmann, F.H., “Influence |
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Wittmann, F.H. (Ed.), Elsevier Scientific Pub- |
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of Fracture Energy on Failure of AAC-Ele- |
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lishing Co., Amsterdam, 1983, pp. 325–369. |
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ments” in Autoclaved Aerated Concrete, Witt- |
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Tada, S., “Bibliography on Autoclaved Aerated |
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mann, F.H. (Ed.), A.A. Balkema, Rotterdam, |
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Concrete 1982–1992” in Autoclaved Aerated |
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1992, pp. 147–151. |
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Concrete, Wittmann, F.H. (Ed.), A.A. Balkema, |
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35 Trunk, B., Schober, G., Helbling, A.K., |
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Rotterdam, 1992, pp. 325–360. |
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Wittmann, F.H., Cem. Concr. Res. 1999, 29, |
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855–859. |
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