Untitled - Technische Universiteit Eindhoven
Untitled - Technische Universiteit Eindhoven
Untitled - Technische Universiteit Eindhoven
- No tags were found...
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
168 Bibliography[127] G. W. Scherer. Measuring permeability of rigid materials by a beam-bendingmethod: I. Theory. Journal of the American Ceramic Society, 83(9):2231–2239,2000. Erratum, J. Am. Ceram. Soc. 87 (8) (2004) 1612–1613.[128] W. Vichit-Vadakan and G. W. Scherer. Measuring permeability of rigid materialsby a beam-bending method: II. Porous glass. Journal of the American CeramicSociety, 83(9):2240–2245, 2000. Erratum, J. Am. Ceram. Soc. 87 (8) (2004) 1614.[129] W. Vichit-Vadakan and G. W. Scherer. Measuring permeability of rigid materialsby a beam-bending method: III. Cement paste. Journal of the American CeramicSociety, 85(6):1537–1544, 2002. Erratum, J. Am. Ceram. Soc. 87 (8) (2004) 1615.[130] W. Vichit-Vadakan and G. W. Scherer. Measuring permeability and stress relaxationof young cement paste by beam bending. Cement and Concrete Research, 33(12):1925–1932, 2003.[131] G. W. Scherer. Measuring permeability of rigid materials by a beam-bendingmethod: IV. Transversely isotropic plate. Journal of the American Ceramic Society,87(8):1517–1524, 2004.[132] J. Valenza and G. W. Scherer. Measuring permeability of rigid materials by a beambendingmethod: V. Isotropic rectangular plates of cement paste. Journal of theAmerican Ceramic Society, 87(10):1927–1931, 2004.[133] G. W. Scherer. Relaxation of a viscoelastic gel bar: I. Theory. Journal of Sol-GelScience and Technology, 1:169–175, 1994.[134] G. W. Scherer. Viscoelasticity and permeability of silica gels. Faraday Discussions,(101):225–234, 1995.[135] G. W. Scherer, S. A. Pardenek, and R. M. Swiatek. Viscoelasticity in silica-gel.Journal of Non-Crystalline Solids, 107(1):14–22, 1988.[136] J. E. Martin and J. Odinek. On the turbidity of silica gels: aggregation in thepresence of coulumb interactions. Journal of Colloid and Interface Science, 154(2):461–480.[137] I. Jiménez González and G. W. Scherer. Effect of swelling inhibitors on the swellingand stress relaxation of clay bearing stones. Environmental Geology, 46:364–377,2004.[138] M. L. Sheely. Glycerol viscosity tables. Industrial & Engineering Chemistry Research,24:1060–1064, 1932.[139] A. N. Tutuncu, A L. Podio, A.R. Gregory, and M. M. Sharma. Nonlinear viscoelasticbehavior of sedimentary rocks, part I: Effect of frequency and strain amplitude.Geophysics, 63:184–194, 1998.[140] H. Valiollahi. Modeling of the placement of an oil-soluble chemical in porous mediafor water control. Master’s thesis, Delft University of Technology, 2005.