BUSINESS ADDRESS: Prof. George W. Scherer Princeton University
Dept. Civil & Env. Eng./PRISM Eng. Quad. E-319
Princeton, NJ 08544 USA Phone 1-609-258-5680
FAX 1-609-258-2799 [email protected] HOME ADDRESS: 13 Lake Baldwin Drive Pennington, NJ 08534 USA EDUCATION: Massachusetts Institute of Technology SB-SM in Ceramics June, 1972 Thesis Title: “Crystallization Behavior of Glass-Forming Systems” PhD in Materials Science in August, 1974. Thesis Title: “Crystal Growth in Binary Silicate Glasses” Advisor: Professor D. R. Uhlmann RESEARCH INTERESTS: Broad interest in materials science, including relaxation phenomena, vis-cous flow and sintering, thermal stress analysis, diffusion, kinetics of nucleation and crystallization, preparation of glasses and ceramics from gels, theory of dry-ing, structure and properties of cementitious materials, mechanisms of deteriora-tion of stone. PROFESSIONAL EMPLOYMENT: Princeton University, Joint appointment in Princeton Materials Institute and Dept. Civil & Environmental Engineering, 2/96-present Job Title: William L. Knapp ’47 Professor of Civil Engineering E. I. du Pont de Nemours & Co., Central Research & Development Dept., 8/85-1/96 Job Title: Senior Research Associate Responsibilities: Fundamental research in materials science Achievements: Model of drying mechanics of gels, new techniques for measurement of permeability of gels, model for sintering kinetics of composites Corning Glass Works, Research & Development Division, 10/74 - 8/85 Job Title: Research Associate
Responsibilities: Design, execute, and document original research programs contributing to project goals; direct 1-2 senior technicians. Achievements: Viscous sintering theory for optical waveguide fabrication; analysis of stresses in glass-to-metal seals; invented novel gel process for fabrica-tion of glasses and ceramics. Professional Awards: 1985 G. W. Morey Award, Glass Division of American Ceramic Society 1986 Woldemar Weyl Award, International Congress on Glass 1986 Ross Coffin Purdy Award, American Ceramic Society 1987 Elected Fellow of American Ceramic Society 1987 W.H. Zachariasen Award, Editorial Board, Journal of Non-Crystalline Solids 1990 Fulrath Pacific Award, Univ. California at Berkeley and Am. Ceram. Soc. 1992 Best Paper in Drying in 1990-1991 (for Theory of Drying, J. Am. Ceram. Soc.,
73 [1] (1990) 3-14) presented at Int. Drying Symposium 1994 Robert Sosman Award, American Ceramic Society 1995 Ralph K. Iler Award, American Chemical Society 1997 Elected to the National Academy of Engineering (Materials Division) 2001 Brunauer Award presented by Cements Division, Am. Ceram. Soc. 2002 Brunauer Award presented by Cements Division, Am. Ceram. Soc. 2003 Cohen Memorial Distinguished Lectures Series, Northwestern Univ. 2005 Awarded the William L. Knapp ’47 Chair Civil Engineering 2006 ISI Highly Cited Author (A0378-2006-C) 2007 Rosenquist Lecturer, Univ. Oslo, Norway 2007 Brunauer Award presented by Cements Division, Am. Ceram. Soc. 2008 Della Roy Lecture presented by Cements Division, Am. Ceram. Soc. Visiting Professorships: 1983 Visiting Professor at M.I.T., Fall term 1989 Invited Professor at Univ. Montpellier II, France, Spring 1989 1993 Visiting Scientist, Univ. Claude Bernard, Lyon, France, 4-9/93 2000 Visiting Professor, University of Dijon, France, Spring, 2000 2003 Visiting Professor, École Polytech. Fédérale Lausanne, Switzerland, 7-9/03 2010 Shimizu Visiting Professorship, Stanford University, 9-12/2010 2011 Lars Onsager Visiting Professorship, Norwegian University of Science &
Technology, Trondheim, Norway, June & Aug, 2011 and Jan., 2012 Teaching Awards: Engineering Council Award for Excellence in Teaching, 2001 and 2003 School of Engineering & Applied Science Distinguished Teacher Award, 2002
Professional Service: Member of Editorial Advisory Board, Cement & Concrete Research Member of Editorial Board of Colloids and Interface Science Communications Associate Editor, Journal of the American Ceramic Society Books, Papers, Patents: 3 books, 10 patents, ~320 papers; h-index 67; i-10 index 236 Languages: English, French
G. W. Scherer - List of Publications Books: Relaxation in Glass and Composites G.W. Scherer (Wiley, New York, 1986; reprinted by Krieger, Malabar, FL, 1992) 331 pp. Sol-Gel Science C.J. Brinker and G.W. Scherer (Academic Press, New York, 1990) 908 pp. Factors affecting Portland Brownstone durability Inmaculada Jiménez Gonzàlez, Robert Flatt, Timothy Wangler, and George W. Scherer (Lambert Academic Publishing, Saarbrucken, 2012) 119 pp. ISBN 978-3-8473-7127-4 Patents: 1. “Carbon coating for a starting member used in producing optical wave-
guide”, E.K. Dominick and G.W. Scherer, U.S. Pat. 4,204,850 (May 27, 1980)
2. “Carbon coating for a starting member used in producing optical wave-guides”, E.K. Dominick and G.W. Scherer, U.S. Pat. 4,233,052 (Nov. 11, 1980)
3. “Method for drawing high-bandwidth optical waveguides”, G.W. Scherer, U.S. Pat. 4,248,614 (Feb. 3, 1981)
4. “Gradient index optical waveguide and method of making”, S.T. Gulati and G.W. Scherer, U.S. Pat. 4,358,181 (Nov. 9, 1982)
5. “Method of forming a glass or ceramic product”, G.W. Scherer, U.S. Pat. 4,451,855 (Sept. 17, 1985)
6. “Method for making glass or ceramic article”, J.C. Luong and G.W. Scherer, U.S. Pat. 4,561,872 (Dec. 31, 1985)
7. “Method of forming glass or ceramic article”, G.W. Scherer, U.S. Pat. 4,574,063 (Mar. 4, 1986)
8. “Method for making metal halide optical fiber”, A. Sarhangi and G.W. Scherer, U.S. Pat. 4,610,708 (Sept. 9, 1986)
9. “Organic-inorganic polymeric composites”, I.A. David, M.A. Harmer, J.S. Meth, and G.W. Scherer, U.S. Pat 5,252,654 (Oct. 12, 1993)
10. “Method of protecting concrete from freeze damage”, G.W. Scherer, J. Chen, and J. Valenza, U.S. Pat 6,485,560 (Nov. 26, 2002)
Articles:
1. "A Study of Quartz Melting", G. W. Scherer, P. J. Vergano, D. R. Uhlmann, Physics and Chemistry of Glasses 11 [3] (1970) 53-58
2. "Crystallization Behavior and Glass Formation of Selected Lunar Composi-tions", G. W. Scherer, R. W. Hopper, D. R. Uhlmann, pp. 2627-2637 in Pro-ceedings of Third Lunar Science Conference (Supp. 3, Geochimica et Cos-mochimica Acta) Vol. 3, MIT Press 1972
3. "Crystallization Behavior of “α−Phenyl o-Cresol”, G.W. Scherer, J. Crystal Growth 15 (1972) 1-10
4. "Viscous Flow and Crystallization Behavior of Selected Lunar Composi-tions", M. Cukierman, L. Klein, G. W. Scherer, R. W. Hopper, D. R. Uhlmann, pp. 2685-2696 in Proceedings of the Fourth Lunar Science Con-ference (Supp. 4, Geochimica et Cosmochimica Acta) Vol. 3 (Pergamon Press, 1973)
5. "Viscous Flow, Crystallization Behavior and Thermal History of Orange Soil Material", D. R. Uhlmann, M. Cukierman, G. W. Scherer, R. W. Hop-per, American Geophysical Union 54 [6] (1973) 617-618.
6. "Crystallization Behavior of High Purity o-Terphenyl", G. W. Scherer, D. R. Uhlmann, C. E. Miller, K. A. Jackson, J. Crystal Growth 23 (1974) 323-330
7. "Crystallization Statistics, Thermal History and Glass Formation", R. W. Hopper, G. W. Scherer, D. R. Uhlmann, J. Non-Cryst. Solids 15 (1974) 45-62
8. "Crystallization Kinetics of Na20-3SiO2", G. W. Scherer, D. R. Uhlmann, J. Crystal Growth 29 (1975) 12-18
9. "Crystal Nucleation in Normal Alkane Liquids", D. R. Uhlmann, G. Kritchevsky, R. Straff, G. W. Scherer, J. Chemistry and Physics 62 [12] (1975) 4896-4903
10. "Diffusion Controlled Crystal Growth of Dendrite Arrays", G. W. Scherer, D. R. Uhlmann, J. Crystal Growth 30 (1975) 304-10
11. "Effects of Phase Separation on Crystallization Behavior", G. W. Scherer, D. R. Uhlmann, J. Non-Cryst. Solids 21 (1976) 199-213
12. "Diffusion Controlled Crystal Growth in K20-SiO2 Compositions", G. W. Scherer, D. R. Uhlmann, J. Non-Cryst. Solids 23 (1977) 59-80
13. "Sintering of Low Density Glasses: I. Theory," G. W. Scherer, "II. Experi-mental Study," G. W. Scherer, D. L. Bachman, "III. Effect of a Distribution of Pore Sizes", G. W. Scherer, J. Am. Ceram. Soc. 60 [5-6] (1977) 236-246
14. "Thermal Stresses in a Cylinder: Application to Optical Waveguide Blanks", G. W. Scherer, J. Non-Cryst. Solids 34 (1979) 223-238
15. "Sintering Inhomogeneous Glasses: Application to Optical Waveguides", G. W. Scherer, J. Non-Cryst. Solids 34 (1979) 239-256
16. "A Simplified Model for Glass Formation", D. R. Uhlmann, P.I.K. Onorato, G. W. Scherer, Proceedings Lunar Science Conference lOth (1979) 375-381
17. "Stress-Induced Index Profile Distortion in Optical Waveguides", G. W. Scherer, Applied Optics 19 [12] (1980) 2000-2006
18. "Thermal Stresses in Clad-Glass Fibers", G. W. Scherer and A. R. Cooper, J. Am. Ceram. Soc. 63 [5-6] (1980) 346-347
19. "Stress-Optical Effects in Optical Waveguides", G. W. Scherer, J. Non-Cryst. Solids 38-39 (1980) 201-204
20. "Stress in Optical Waveguide Fibers", G. W. Scherer and A. R. Cooper, pp. 193-203 in Advances in Ceramics, Volume II, Physics of Fiber Optics, ed. B. Bendow and S. Mitra, (Am. Ceram. Soc., Inc., Columbus, Ohio, 1981)
21. "Model of Structural Relaxation in Glass with Variable Coefficients", G. W. Scherer and S. M. Rekhson, J. Am. Ceram. Soc. 65 [6] (1982) C94-C96
22. "Viscoelastic-Elastic Composites: I, General Theory", G. W. Scherer and S. M. Rekhson, J. Am. Ceram. Soc. 65 [7] (1982) 352-360
23. "Viscoelastic-Elastic Composites: II, Sandwich Seal", G. W. Scherer and S. M. Rekhson, J. Am. Ceram. Soc. 65 [8] (1982) 399-406
24. "Viscoelastic-Elastic Composites: III, Bead Seal", S. M. Rekhson and G. W. Scherer, J. Am. Ceram. Soc. 65 [9] (1982) 419-425
25. "Dilatational Relaxation in Cylindrical Seals", G. W. Scherer, J. Am. Ceram. Soc. 65 [10] (1982) 491-496
26. "Thermal Stresses in Optical Fibers: Fluid Core Assumption", G. W. Scherer, J. Non-Cryst. Solids 51 (1982) 323-332
27. "Glass Transition as a Function of Cooling Rate", S. M. Rekhson and G. W. Scherer, J. de Physique 43 [12] (1982) C9-427-430
28. "Viscoelastic Analysis of Glass-to-Glass Sandwich Seals", G. W. Scherer, J. de Physique 43 [12] (1982) C9- 443-446
29. "Unusual Methods of Forming Glass", G. W. Scherer and P. C. Schultz in Glass Science and Technology, Vol. 1, eds. D. R. Uhlmann and N. Kreidl (Academic Press, New York 1983)
30. "Viscoelastic Analysis of Thermal Stresses in a Composite Sphere", G. W. Scherer, J. Am. Ceram. Soc. 66 [1] (1983) 59-65
31. "Viscoelastic Analysis of the Split Ring Seal", G. W. Scherer, J. Am. Ceram. Soc. 66 [2] (1983) 135-139
32. "Viscoelastic Thermal Stress Analysis", G. W. Scherer, J. Non-Cryst. Solids 54 (1983) 223-240
33. "Relationships Between the Sol-to-Gel and Gel-to-Glass Conversions", C. J. Brinker and G. W. Scherer, pp 43-59 in Ultrastructure Processing of Ce-ramics, Glasses, and Composites, (John Wiley and Sons, New York, 1984)
34. "Glasses from Colloids", G. W. Scherer and J. C. Luong, J. Non-Cryst. Solids 63 (1984) 163-172
35. "Use of the Adam-Gibbs Equation in the Analysis of Structural Relaxation", G. W. Scherer, J. Am. Ceram. Soc. 67 [7] (1984) 504-511
36. "Glasses and Ceramics from Colloids", G. W. Scherer, pp. 205-211 in Better Ceramics Through Chemistry (Elsevier Sci. Pub. Co., New York 1984)
37. "A Comparison Between the Densification Kinetics of Colloidal and Poly-meric Silica Gels", C. J. Brinker, W. D. Drotning, and G. W. Scherer, pp.
25-32 in Better Ceramics Through Chemistry (Elsevier Sci. Pub. Co., New York, 1984)
38. "The Role of Water in Densification of Gels", T. A. Gallo, C. J. Brinker, L. C. Klein, and G. W. Scherer, pp. 85-90 in Better Ceramics Through Chemistry (Elsevier Sci. Pub. Co., New York, 1984)
39. "Viscous Sintering of a Bimodal Pore Size Distribution", G. W. Scherer, J. Am. Ceram. Soc. 67 [11] (1984) 709-715
40. "Viscous Sintering on a Rigid Substrate", G. W. Scherer and T. Garino, J. Am. Ceram. Soc. 68 [4] (1985) 216-220
41. "Sol–Gel–Glass: I. Gelation and Gel Structure", C. J. Brinker and G. W. Scherer, J. Non-Cryst. Solids 70 (1985) 301-322
42. "Sol–Gel–Glass: II. Physical and Structural Evolution During Constant Heating Rate Experiments", C. J. Brinker, G. W. Scherer, and E. P. Roth, J. Non-Cryst. Solids 72 (1985) 345-368
43. "Sol–Gel–Glass: III. Viscous Sintering", G. W. Scherer, C. J. Brinker, and E. P. Roth, J. Non-Cryst. Solids 72 (1985) 369-389
44. "Structural Evolution during the Gel-to-Glass Conversion", C. J. Brinker, E. P. Roth, G. W. Scherer, and D. R. Tallant, J. Non-Cryst. Solids 71 (1985) 171-185
45. "Viscoelastic Analysis of Stresses in Composites", G. W. Scherer and S. M. Rekhson, pp. 245-318 in Treatise on Materials Science and Technology: Glass IV (Academic Press, New York, 1985)
46. "Stress in Leached Phase-Separated Glass", G. W. Scherer and M. G. Drex-hage, J. Am. Ceram. Soc. 68 [8] (1985) 419-426
47. "Glasses and Ceramics from Colloids", G. W. Scherer, J. Non-Cryst. Solids 73 (1985) 661-667
48. “Comment on ‘Dehydration of Gels and Glasses in the Systems B203-SiO2 and ZrO2-SiO2 Prepared by the Sol-Gel Process from Metal Alkoxides’", C. Jeffrey Brinker and George W. Scherer, J. Am. Cer. Soc. 69 [l] (1986) C12-C14
49. "Structural Relaxation in Gel-Derived Glasses", G. W. Scherer, C. J. Brinker, and E. P. Roth, J. Non-Cryst. Solids 82 (1986) 191-197
50. "Relationships Between the Sol to Gel and Gel to Glass Conversions: Struc-ture of Gels During Densification", C. J. Brinker, E. P. Roth, D. R. Tallant, and G. W. Scherer, pp. 37-51 in Science of Ceramic Chemical Processing (John Wiley and Sons, New York, 1986)
51. "Volume Relaxation Far from Equilibrium", G. W. Scherer, J. Am. Ceram. Soc. 69 [5] (1986) 374-381
52. "Dilatation of Porous Glass", G. W. Scherer, J. Am. Ceram. Soc. 69 [6] (1986) 473-480
53. "Viscous Sintering under a Uniaxial Load", G.W. Scherer, J. Am. Ceram. Soc. 69 [9] (1986) C206-C207
54. "Drying Mechanics of Gels", G.W. Scherer, pp. 225-230 in Better Ceramics Through Chemistry II, eds. C.J. Brinker, D.E. Clark, D.R. Ulrich (Mat. Res. Soc., Pittsburgh, PA, 1986)
55. "Drying Gels: I. General Theory", G.W. Scherer, J. Non-Cryst. Solids 87 (1986) 199-225 ; "Correction of 'Drying Gels: I. General Theory'", J. Non-Cryst. Solids 92 (1987) 375-382
56. "Drying Gels: II. Film and Flat Plate", G.W. Scherer, J. Non-Cryst. Solids 89 (1987) 217-238
57. "Structural Evolution of Sol-Gel Glasses", G.W. Scherer, Yogyo Kyokai-shi (J. Japanese Ceramic Society) 95 [l] (1987) 21-44
58. "Drying Gels: III. Warping Plate", G.W. Scherer, J. Non-Cryst. Solids 91 (1987) 83-100
59. "Drying Gels: IV. Cylinder and Sphere", G.W. Scherer, J. Non-Cryst. Solids 91 (1987) 101-121
60. "Drying Gels: V. Rigid Gels", G.W. Scherer, J. Non-Cryst. Solids 92 (1987) 122-144.
61. "Viscous Sintering of Inorganic Gels", G.W. Scherer, pp. 265-300 in Surface and Colloid Science, Vol. 14, ed. E. Matijevic (Plenum Publ. Corp., New York, 1987)
62. "Use of a Bimaterial Strip to Predict Expansion Compatibility", G.W. Scher-er, J. Dental Research 66 (1987) 1340
63. "Sintering with Rigid Inclusions", G.W. Scherer, J. Am. Ceram. Soc. 70 [10] (1987) 719-725
64. "Creep and Densification During Sintering of Glass Powder Compacts", M.N. Rahaman, L.C. DeJonghe, G.W. Scherer, R.J. Brook, J. Am. Ceram. Soc. 70 [10] (1987) 766-774
65. "Drying Gels: VI. Viscoelastic Plate", G.W. Scherer, J. Non-Cryst. Solids 99 (1988) 324-358
66. "Aging and Drying of Gels", G.W. Scherer, J. Non-Cryst. Solids 100 (1988) 77-92
67. "On Constrained Sintering: I. Constitutive Model for a Sintering Body", R.K. Bordia and G.W. Scherer, Acta Metallurgica 36 [9] (1988) 2393-2397.
68. "On Constrained Sintering: II. Comparison of Constitutive Models", R.K. Bordia and G.W. Scherer, Acta Metallurgica 36 [9] (1988) 2399-2409.
69. "On Constrained Sintering: III. Rigid Inclusions", R.K. Bordia and G.W. Scherer, Acta Metallurgica 36 [9] (1988) 2411-2416
70. “Syneresis in Silica Gel”, G.W. Scherer, pp. 179-186 in Better Ceramics Through Chemistry III, eds. C.J. Brinker, D.E. Clark, D.R. Ulrich (Mat. Res. Soc., Pittsburgh, PA, 1988)
71. "Viscous Sintering with a Pore Size Distribution and Rigid Inclusions", G.W. Scherer, J. Am. Ceram. Soc. 71 [10] (1988) C447-C448
72. “Viscoelasticity in Silica Gel”, G.W. Scherer, S.A. Pardenek, and R.M. Swiatek, J. Non-Cryst. Solids 107 [1] (1988) 14-22
73. "Sintering of Composites: Critique of the Available Analyses", R.K. Bordia and G.W. Scherer, pp. 872-876 in Ceramic Powder Science B, Ceramic Transactions, Vol. 1, eds. G.L. Messing, E.R. Fuller, Jr., H. Hausner (Am. Ceram. Soc., Westerville, OH, 1988)
74. "Drying Gels: VII. Diffusion During Drying", G.W. Scherer, J. Non-Cryst. Solids 107 (1989) 135-148
75. "Mechanics of Syneresis: I. Theory", G.W. Scherer, J. Non-Cryst. Solids 108 (1989) 18-27
76. "Mechanics of Syneresis: II. Experimental Study", G.W. Scherer, J. Non-Cryst. Solids 108 (1989) 28-36
77. "Drying Gels: VIII. Revision and Review", G.W. Scherer, J. Non-Cryst. Sol-ids 109 (1989) 171-182
78. “Effect of Shrinkage on Modulus of Silica Gel”, G.W. Scherer, J. Non-Cryst. Solids 109 (1989) 183-190
79. “The Glass Transition”, G.W. Scherer, pp. 254-278 in Glass ‘89: Survey Pa-pers of XVth Int. Cong. Glass, Leningrad, 1989
80. “Aging of Gels”, G.W. Scherer, pp. 153-180 in Sol-Gel Science and Technol-ogy, eds. M.A. Aegerter, M. Jafelicci Jr., D.F. Souza, and E.D. Zanotto (World Scientific, New Jersey, 1990)
81. “Drying of Gels”, G.W. Scherer, pp. 181-220 in Sol-Gel Science and Tech-nology, eds. M.A. Aegerter, M. Jafelicci Jr., D.F. Souza, and E.D. Zanotto (World Scientific, New Jersey, 1990)
82. “Sintering of Gels”, G.W. Scherer, pp. 221-256 in Sol-Gel Science and Tech-nology, eds. M.A. Aegerter, M. Jafelicci Jr., D.F. Souza, and E.D. Zanotto (World Scientific, New Jersey, 1990)
83. “Study of Structural Evolution of Silica Gel Using 1H and 29Si NMR”, A.J. Vega and G.W. Scherer, J. Non-Cryst. Solids 111 [2-3] (1989) 153-166
84. “Theory of Drying”, G.W. Scherer, J. Am. Ceram. Soc. 73 [1] (1990) 3-14 85. “Measurement of Permeability: I. Theory”, G.W. Scherer, J. Non-Cryst. Sol-
ids 113 [2-3] (1990) 107-118 86. “Measurement of Permeability: II. Silica Gel”, G.W. Scherer and R.M.
Swiatek, J. Non-Cryst. Solids 113 [2-3] (1990) 119-129 87. “Stress and Fracture During Drying of Gels”, G.W. Scherer, J. Non-Cryst.
Solids 121 (1990) 104-109 88. “Effect of Aging and pH on the Modulus of Aerogels”, H. Hdach, T.
Woignier, J. Phalippou, and G.W. Scherer, J. Non-Cryst. Solids 121 (1990) 202-205
89. “Theories of Relaxation”, G.W. Scherer, J. Non-Cryst. Solids 123 (1990) 75-89
90. “Physics of Drying”, G.W. Scherer, pp. 561-572 in Ceramic Powder Science III, Ceramic Transactions, Vol. 12 (Am. Ceram. Soc., Westerville, OH, 1990)
91. “Effect of Inclusions on Shrinkage”, G.W. Scherer, pp. 503-514 in Better Ce-ramics Through Chemistry IV, eds. B.J.J. Zelinski, C.J. Brinker, D.E. Clark, and D.R. Ulrich (Mat. Res. Soc., Pittsburgh, PA, 1990)
92. “Mechanical Properties of Silica Alcogels and Aerogels”, T. Woignier, J. Phalippou, H. Hdach, and G.W. Scherer, pp. 1087-1099 in Better Ceramics Through Chemistry IV, eds. B.J.J. Zelinski, C.J. Brinker, D.E. Clark, and D.R. Ulrich (Mat. Res. Soc., Pittsburgh, PA, 1990)
93. “Constitutive Behavior of Sintering Materials”, K.R. Mikeska, G.W. Scherer, and R.K. Bordia, Ceram. Trans., 7 (1990) 200-214
94. “Viscous Sintering of Particle-Filled Composites”, G.W. Scherer, Ceramic Bull., 70 [6] (1991) 1059-1063
95. “Autoclave Treatment Effect on Silica Alcogel Structure”, M. Pauthe, J.F. Quinson, H. Hdach, T. Woignier, J. Phalippou, and G.W. Scherer,J. Non-Cryst. Solids, 130 (1991) 1-7
96. “Cell Models for Viscous Sintering”, G.W. Scherer, J. Am. Ceram. Soc., 74 [7] (1991) 1523-1531
97. “Thermal Expansion of Gels: A Novel Method for Measuring Permeabil-ity”, G.W. Scherer, H. Hdach, and J. Phalippou, J. Non-Cryst. Solids, 130 (1991) 157-170
98. “Effect of Inclusions on Viscous Sintering”, G.W. Scherer and A. Jagota, pp. 99-109 in Advanced Composite Materials, Ceramic Transactions Vol. 19 (Am. Ceram. Soc., Columbus, OH, 1991)
99. “Glass Formation and Relaxation”, G.W. Scherer, pp. 119-173 in Materials Science and Technology, Vol. 9: Glasses and Amorphous Materials, ed. J. Zarzycki (VCH, Weinheim, Germany, 1991)
100. “Bending of Gel Beams: method of characterizing mechanical properties and permeability”, G.W. Scherer, J. Non-Cryst. Solids, 142 [1-2] (1992) 18-35
101. “Drying of Ceramics Made by Sol-Gel Processing”, G.W. Scherer, pp. 92-113 in Drying ‘92 Part A, ed. A.S. Mujumdar (Elsevier, Amsterdam, 1992)
102. “Crack-tip stress in gels”, G.W. Scherer, J. Non-Cryst. Solids 144 (1992) 210-216
103. “Stress Development During Supercritical Drying”, G.W. Scherer, J. Non-Cryst. Solids 145 (1992) 33-40
104. “Mechanics of Gels”, G.W. Scherer, pp. 527-533 in Better Ceramics Through Chemistry V, eds. M.J. Hampden-Smith, W.G. Klemperer, and C.J. Brinker (Mat. Res. Soc., Pittsburgh, PA, 1992)
105. “Recent Progress in Drying of Gels”, G.W. Scherer, J. Non-Cryst. Solids 147&148 (1992) 363-374
106. “Evolution of Mechanical Properties during the Alcogel-Aerogel-Glass Pro-cess”, T. Woignier, J. Phalippou, G. Larnac, F. Pernot, G.W. Scherer, J. Non-Cryst. Solids 147&148 (1992) 672-680
107. “Constitutive Models for Viscous Sintering”, G.W. Scherer, pp. 1-18 in Me-chanics of Granular Materials and Powder Systems, ed. M.M. Mehrabadi (ASME, New York, 1992)
108. “Physics of Drying”, pp. 179-199 in Ultrastructure Processing of Advanced Materials, eds. D.R. Uhlmann and D.R. Ulrich (Wiley, New York, 1992)
109. “Guest Editorial: Structural Relaxation”, G.W. Scherer, Plastics Rubber & Composites, Processing and Applications 19 (1993) 1-5
110. “Freezing Gels”, G.W. Scherer, J. Non-Cryst. Solids 155 (1993) 1-25 111. “Viscosities and Sintering Rates of a Two-Dimensional Granular Compo-
site”, A. Jagota and G.W. Scherer, J. Am. Ceram. Soc. 76 [12] (1993) 3123-3135
112. “Relaxation of a Viscoelastic Gel Bar: I. Theory”, G.W. Scherer, J. Sol-Gel Sci. Tech. 1 (1994) 169-175
113. “Hydraulic Radius and Mesh Size of Gels”, G.W. Scherer, J. Sol-Gel Sci. Tech. 1 (1994) 285-291
114. “Measuring permeability by the thermal expansion method for rigid or highly permeable gels”, G.W. Scherer, J. Sol-Gel Sci. Tech. 3 (1994) 31-40
115. “Effect of drying on viscoelasticity and permeability of gel”, G.W. Scherer, pp. 209-215 in Better Ceramics Through Chemistry VI, eds. A.K. Cheeth-am, C.J. Brinker, M.L. Mecartney, and C. Sanchez (Mat. Res. Soc., Pitts-burgh, PA, 1994)
116. “Stress in Aerogel during Depressurization of Autoclave: I. Theory”, G.W. Scherer, J. Sol-Gel Sci. Tech. 3 (1994) 127-139
117. “Stress in Aerogel during Depressurization of Autoclave: II. Silica Gel”, T. Woignier, G.W. Scherer, and A. Alaoui, J. Sol-Gel Sci. Tech. 3 (1994) 141-150
118. “Relaxation of a Viscoelastic Gel Bar: II. Silica Gel”, G.W. Scherer, J. Sol-Gel Sci. Tech. 2 [1/2/3] (1994) 199-204
119. “Structure and Permeability of Gels”, J.F. Quinson, M. Repellin Lacroix, M. Pauthe, A. Roche, and G.W. Scherer, J. Sol-Gel Sci. Tech. 2 [1/2/3] (1994) 239-244
120. “The Sintering of Silica Aerogels Studied by Thermoporometry”, T. Woignier, J.F. Quinson, M. Pauthe, M. Repellin Lacroix, J. Phalippou, and G.W. Scherer, J. Sol-Gel Sci. Tech. 2 [1/2/3] (1994) 277-282
121. “Preparation and Characterization of KTiOPO4 Sol-gel Thin Films for Inte-grated Optical Applications”, C.J. Barbé, M.A. Harmer, and G.W. Scherer, J. Sol-Gel Sci. Tech. 2 [1/2/3] (1994) 507-512
122. “Mechanical Strengthening of TMOS Based Alcogels by Ageing in Silane Solutions”, S. Hæreid, M.-A. Einarsrud, and G.W. Scherer, J. Sol-Gel Sci. Tech. 3 (1994) 199-204
123. “Viscosities and sintering rates of composite packings of spheres”, A. Jagota and G.W. Scherer, J. Am. Ceram. Soc. 78 [3] (1995) 521-528
124. “Ultraporous materials with low permeability”, J. Phalippou, G.W. Scherer, T. Woignier, D. Bourret, and R. Sempéré, J. Non-Cryst. Solids 186 (1995) 64-72
125. “Deformation of aerogels during characterization”, G.W. Scherer, D.M. Smith, and D. Stein, J. Non-Cryst. Solids 186 (1995) 309-315
126. “Compression of aerogels”, G.W. Scherer, D.M. Smith, X. Qiu, and J.M. An-derson, J. Non-Cryst. Solids 186 (1995) 316-320
127. “Shrinkage during drying of silica gel”, D.M. Smith, G.W. Scherer, and J.M. Anderson, J. Non-Cryst. Solids 188 (1995) 191-206
128. “Microstructure, orientation, and properties of sol-gel derived KTP thin films for nonlinear optical applications”, C.J. Barbé, M.A. Harmer, and G.W. Scherer, J. Am. Ceram. Soc. 78 [8] (1995) 2033-2044
129. “Thermal expansion of a viscoelastic gel”, G.W. Scherer, J. Sol-Gel Sci. Tech. 4 [3] (1995) 169-177
130. “Cavitation during drying of a gel”, G.W. Scherer and D.M. Smith, J. Non-Cryst. Solids 189 (1995) 197-211
131. “An Organic/Inorganic Single-Phase Composite”, I.A. David and G.W. Scherer, Chem. Mater. 7 [10] (1995) 1957-1967
132. “Influence of viscoelasticity and permeability on the stress response of silica gel”, G.W. Scherer, Langmuir 12 [5] (1996) 1109-1116
133. “Fundamentals of drying and shrinkage”, G.W. Scherer, pp. 199-211 in Sci-ence of Whitewares, eds. V.E. Henkes, G.Y. Onoda, and W.M. Carty (Am. Ceram. Soc., Westerville, OH, 1996
134. “Bending of gel beams: Effect of deflection rate and Hertzian indentation”, G.W. Scherer, J. Non-Cryst. Solids 201 (1996) 1-25
135. “Viscoelasticity and permeability of silica gels”, G.W. Scherer, Faraday Disc. 101 (1995) 225-234;287-291
136. “Shrinkage of silica gels aged in TEOS”, G.W. Scherer, S. Hæreid, E. Nilson, and M.A. Einarsrud, J. Non-Cryst. Solids 202 [1-2] (1996) 42-52
137. “Bending of a gel rod with an impermeable surface”, G.W. Scherer, J. Non-Cryst. Solids 204 [1] (1996) 73-77
138. “Thermal expansion of a gel layer on a rigid substrate”, G.W. Scherer, J. Non-Cryst. Solids 204 [2] (1996) 118-124
139. “Permeability and structure of resorcinol-formaldehyde gels”, G.W. Scher-er, C. Alviso, R. Pekala, and J. Gross, pp. 497-503 in Microporous and Macroporous Materials, eds. R.F. Lobo, J.S. Beck, S.L. Suib, D.R. Corbin, M.E. Davis, L.E. Iton, and S.I. Zones, MRS Symp. Proc. Vol. 431 (Mater. Res. Soc., Pittsburgh, PA, 1996)
140. “Elastic properties of crosslinked Resorcinol-Formaldehyde gels and aero-gels”, J. Gross, G.W. Scherer, C. Alviso, R. Pekala, and J. Non-Cryst. Sol-ids 211 [1,2] (1997) 132-142
141. “Sintering of sol-gel films”, G.W. Scherer, J. Sol-Gel Sci. Tech. 8 (1997) 353-363
142. “Interaction of formic acid with the silica gel network”, K.G. Sharp and G.W. Scherer, J. Sol-Gel Sci. Tech. 8 (1997) 165-171
143. “Sol-gel synthesis of potassium titanyl phosphate: Solution chemistry and gelation”, C.J. Barbé, G.W. Scherer, and M.A. Harmer, J. Sol-Gel Sci. Tech. 9 (1997) 183-199
144. “Stress from re-immersion of partially dried gel”, G.W. Scherer, J. Non-Cryst. Solids, 212 (1997) 268-280
145. “Stress development during drying of Conservare OH®”, G.W. Scherer and G. Wheeler, pp. 355-362 in Proc. 4th Int. Symp. Conservation of Monu-ments in the Mediterranean, Vol. 3, eds. A. Moropoulou, F. Zezza, E. Kol-lias, I. Papachristodoulou (Tech. Chamber Greece, Athens, 1997)
146. “Effect of drying on properties of silica gel”, G.W. Scherer, J. Non-Cryst. Solids, 215 [2,3] (1997) 155-168
147. “Effect of Precursor and Hydrolysis Conditions on Drying Shrinkage”, M.-A. Einarsrud, E. Nilsen, and George W. Scherer, J. Non-Cryst. Solids 221 [2,3] (1997) 135-143
148. “Coarsening in a viscous matrix”, G.W. Scherer, J. Am. Ceram. Soc. 81 [1] (1998) 49-54
149. “Adsorption in sparse networks: I. Cylinder model”, G.W. Scherer, J. Col-loid Interface Sci. 202 (1998) 399-410
150. “Adsorption in sparse networks: II. Application to silica aerogels”, G.W. Scherer, S. Calas, and R. Sempéré, J. Colloid Interface Sci. 202 (1998) 411-416
151. “Bulk proerties of a cyanogel network: Toward an understanding of the elastic, mechanical, and physical processes associated with sol-gel pro-cessing of cyanide-bridged gel systems”, S.L. Sharp, A.B. Bocarsly, and G.W. Scherer, Chemistry of Materials, 10 [3] (1998) 825-832
152. “Adsorption in aerogel networks”, G.W. Scherer, J. Non-Cryst. Solids 225 (1998) 192-199
153. “Characterization of aerogels”, G.W. Scherer, Advances in Colloid and In-terface Science 76-77 (1998)
154. “Densification kinetics and structural evolution during sintering of silica aerogel”, G.W. Scherer, S. Calas, and R. Sempéré, J. Non-Cryst. Solids 240 (1998) 118-130
155. “Sintering of aerogels”, G.W. Scherer, S. Calas, and R. Sempéré, J. Sol-Gel Sci. Tech. 13 (1998) 937-943
156. “Compatible Consolidants”, M. Yang, G.W. Scherer, and G.S. Wheeler, pp. 201-208 in Compatible Materials for the Protection of European Cultural Herit-age, eds. G. Biscontin, A. Moropoulou, M. Erdik, J. Delgado Rodrigues, PACT 56 (Tech. Chamber Greece, Athens, 1998)
157. “Structural efficiency and microstructural modeling of wet gels and aero-gels”, J. Gross and G.W. Scherer, J. Sol-Gel Sci. Techn. 13 (1998) 957-960
158. “Room temperature densification of aerogel by isostatic compression”, J. Sol-Gel Sci. Techn. 13 (1998) 365-369
159. “Structure and properties of gels”, G.W. Scherer, Cement and Concr. Res. 29 [8] (1999) 1149-1157
160. “Crystallization in pores”, G.W. Scherer, Cement and Concr. Res. 29 [8] (1999) 1347-1358
161. “Tailored porous materials”, T.J. Barton, L.M. Bull, W.G. Klemperer, D.A. Loy, B. McEnaney, M. Misono, P.A. Monson, G. Pez, G.W. Scherer, J.C. Vartuli, O.M. Yaghi, Chem. Mater. 11 [10] (1999) 2633-2656
162. “Compatible consolidants from particle-modified gels”, M.R. Escalante, R. Flatt, G.W. Scherer, D. Tsiourva, and A. Moropoulou, Proc. Int. Symp. Conserv. Monuments Med. Basin V
163. “Compatible consolidants from particle-modified gels”, M.R. Escalante, J. Valenza, and G.W. Scherer, pp. 459-465 in Proc. 9th Int. Cong. Deterioration and Conservation of Stone, Vol. 2, ed. V. Fassina (Elsevier, Amsterdam, 2000)
164. “Stress from crystallization of salt in pores”, G.W. Scherer, pp. 187-194 in Proc. 9th Int. Cong. Deterioration and Conservation of Stone, Vol. 1, ed. V. Fas-sina (Elsevier, Amsterdam, 2000)
165. “Measuring Permeability of Rigid Materials by a Beam-Bending Method: I. Theory”, G.W. Scherer, J. Am. Ceram. Soc. 83 [9] (2000) 2231-2239
166. “Measuring Permeability of Rigid Materials by a Beam-Bending Method: II. Porous Vycor”, W. Vichit-Vadakan and G.W. Scherer, J. Am. Ceram. Soc. 83 [9] (2000) 2240-2245
167. “Thermal expansion kinetics: Method to measure permeability of cementi-tious materials: I, Theory”, G.W. Scherer, J. Am. Ceram. Soc. 83 [11] (2000) 2753-61
168. “Mechanical structure-property relationship of aerogels”, H.-S. Ma, A.P. Roberts, J.-H. Prévost, R. Jullien, and G.W. Scherer, J. Non-Cryst. Solids 277 (2000) 127-141
169. “Nitrogen adsorption in compliant materials”, G. Reichenauer and G.W. Scherer, J. Non-Cryst. Solids 277 (2000) 162-172
170. “Materials Science Research for Conservation of Sculpture and Monu-ments”, G.W. Scherer, R. Flatt, and G. Wheeler, MRS Bulletin, Jan. 2001, pp. 44-50
171. “Thermal expansion kinetics: Method to measure permeability of cementi-tious materials: II, Application to hardened cement paste”, H. Ai, J.F. Young, and G.W. Scherer, J. Am. Ceram. Soc. 84 [2] (2001) 385-391
172. “Practical adhesion of organic coatings to metals: The role of the interphase and its residual stresses”, J. Bouchet, A.A. Roche, E. Jacquelin, and G.W. Scherer, pp. 217-237 in Adhesion Aspects of Thin Films, Vol. 1, ed. K.L. Mittal (VSP, Zeist, The Netherlands, 2001)
173. “Effects upon nitrogen sorption analysis in aerogels”, G. Reichenauer and G.W. Scherer, J. Colloid Interface Sci. 236 (2001) 385-386
174. “Extracting the pore size distribution of compliant materials from nitrogen adsorption”, G. Reichenauer and G.W. Scherer, Colloids and Surfaces A 187-188 (2001) 41-50
175. “Nitrogen sorption in aerogels”, G. Reichenauer and G.W. Scherer, J. Non-Cryst. Solids 285 (2001) 167-174
176. “Computer simulation of mechanical structure-property relationship of aer-ogels”, H.-S. Ma, J.-H. Prévost, R. Jullien, and G.W. Scherer, J. Non-Cryst. Solids 285 (2001) 216-221
177. “Modeling of Sol-Gel Transition with Loop Network Formation and its Im-plications on Mechanical Properties”, H.-S. Ma, J.-P. Prévost, R. Jullien and G. W. Scherer, in Advances in Materials Theory and Modeling - Bridging Over Multiple-Length and Time Scales, edited by V. Bulatov, F. Cleri, L. Colombo, L. Lewis and N. Mousseau, Mater. Res. Soc. Symp. Proc. No. 677 (Materials Research Society, Pittsburgh, 2001), AA7.10
178. “Beam-bending method for permeability and creep characterization of ce-ment paste and mortar”, W. Vichit-Vadakan and G.W. Scherer, pp. 27-32 in Creep, Shrinkage and Durability Mechanics of Concrete and Other Quasi-Brittle Materials, eds. F.-J. Ulm, Z.P. Bazant, & F.H. Wittmann (Elsevier, Amsterdam, 2001)
179. “Measuring Permeability of Rigid Materials by a Beam-Bending Method: III. Cement Paste”, W. Vichit-Vadakan and G.W. Scherer, J. Am. Ceram. Soc. 85 [6] 1537–44 (2002)
180. “Dangling bond deflection model: Growth of gel network with loop struc-ture”, H.-S. Ma, R. Jullien, and G.W. Scherer, Phys. Rev. E 65 (2002) 401-403
181. “Elasticity of DLCA model gels with loops”, H.-S. Ma,*, J. Prévost, R. Jul-lien, G.W. Scherer, Int. J. Solids Struct. 39 [18] (2002) 4605-4614
182. “Optimization of the rapid supercritical extraction process for aerogels”, G. W. Scherer, J. Gross, L.W. Hrubesh, and P.R. Coronado, J. Non-Cryst. Solids 311 (2002) 259-272
183. “Rheology optimization of Particle Modified Consolidants”, E. Ag-gelakopoulou, P. Charles, M.E. Acerra, A.I. Garcia, R.J. Flatt, and G.W. Scherer, pp.15-20 in Materials Issues in Art & Archaeology VI, MRS Sympo-sium Proc. Vol. 712, eds. P.B. Vandiver, M. Goodway, and J.L. Mass (Ma-terials Res. Soc., Warrendale, PA, 2002)
184. “Hygric Swelling of Portland Brownstone”, I. Jimenez Gonzalez, M. Hig-gins, and G.W. Scherer, pp. 21-27 in Materials Issues in Art & Archaeology VI, MRS Symposium Proc. Vol. 712, eds. P.B. Vandiver, M. Goodway, and J.L. Mass (Materials Res. Soc., Warrendale, PA, 2002)
185. “Hydration and Crystallization Pressure of Sodium Sulfate: a Critical Re-view”, R.J. Flatt, G.W. Scherer, pp. 29-34 in Materials Issues in Art & Ar-chaeology VI, MRS Symposium Proc. Vol. 712, eds. P.B. Vandiver, M. Goodway, and J.L. Mass (Materials Res. Soc., Warrendale, PA, 2002)
186. “Crystallization damage by sodium sulfate”, N. Tsui, R.J. Flatt, G.W. Scherer, J. Cultural Heritage 4 (2003) 109-115
187. “Dynamic Pressurization: Novel method for measuring fluid permeability”, J. Gross and G.W. Scherer, J. Non-Cryst. Solids 325 (2003) 34-47
188. “Measuring permeability and stress relaxation of young cement paste by beam-bending”, W. Vichit-Vadakan and G.W. Scherer, Cement Concrete Res. 33 (2003) 1925-1932
189. “Factors affecting crystallization pressure”, G.W. Scherer, pp 139-154 in Internal Sulfate Attack and Delayed Ettringite Formation, Proc. Int. RILEM 186-ISA Workshop, ed K. Scrivener and J.Skalny (PRO 35, RILEM publica-tions, Paris 2004)
190. “Characterization of Saturated Porous Bodies”, G.W. Scherer, Concr. Sci. Eng. 37 [265] (2004) 21-30
191. “Effect of swelling inhibitors on the swelling and stress relaxation of clay-bearing stones”, I.Jimenez Gonzalez and G.W. Scherer, Environmental Geology 46 (2004) 364–377
192. “Thermal Expansion and Viscosity of Confined Liquids”, S. Xu, G.C. Simmons and G.W. Scherer, pp. 85-91 in Dynamics of Small Confining Systems, Mat. Res. Soc. Symp. Proc. Vol. 790 (Materials Res. Soc., Warrendale, 2004), P.6.8.1-7
193. “Thermal expansion kinetics: Method to measure permeability of cementitious materials: III, Effect of viscoelasticity”, G.W. Scherer, J. Am. Ceram. Soc. 87 [8] (2004) 1509-1516
194. “Measuring Permeability of Rigid Materials by a Beam-Bending Method: IV. Transversely Isotropic Plate”, G.W. Scherer, J. Am. Ceram. Soc. 87 [8] (2004) 1517-1524
195. “Stress from crystallization of salt”, G.W. Scherer, Cement Concr. Res. 34 (2004) 1613-1624
196. “Measuring Permeability of Rigid Materials by a Beam-Bending Method: V. Iso-tropic Rectangular Plates of Cement Paste”, J.J. Valenza II and G.W. Scherer, J. Am. Ceram. Soc. 87 [10] (2004) 1927-1931
197. “Evidence of anomalous thermal expansion of water in cement paste”, J.J. Valen-za and G.W. Scherer, Cement Concr. Res. 35 (2005) 57-66
198. “Leakage of CO2 Through Abandoned Wells: Role of Corrosion of Cement “, G.W. Scherer, M. A. Celia, J.-H. Prévost, S. Bachu, R. Bruant, A. Duguid, R. Fuller, S. E. Gasda, M. Radonjic, W. Vichit-Vadakan, in Carbon Dioxide Capture for Storage in Deep Geologic Formations - Results from the CO2 Capture Pro-ject, Vol 2 - Geologic Storage of Carbon Dioxide with Monitoring and Verifica-tion (Elsevier Science, Amsterdam, 2005)
199. “Thermal expansion kinetics: Method to measure permeability of cementitious materials: IV, Effect of thermal gradients”, J.P. Ciardullo, D.J. Sweeney, and G.W. Scherer, J. Am. Ceram. Soc. 88 [5] (2005) 1213–1221
200. “Mechanisms of Frost Damage”, G.W. Scherer and J.J. Valenza II, pp. 209-246 in Materials Science of Concrete, Vol. VII, eds. J. Skalny and F. Young (American Ceramic Society, 2005)
201. “Mechanisms of Salt Scaling”, J.J. Valenza II and G.W. Scherer, Materials and Structures 38 (May 2005) 479-488
202. “Characterization of Swelling in Clay-Bearing Stone”, G.W. Scherer and I. Jimé-nez González, pp. 51-61 in Stone decay and conservation, SP-390, ed. A.V. Turk-ington (Geological Soc. Am., 2005)
203. “Expansion of hardened cement paste in saline solutions”, J.J. Valenza II, S. Vi-tousek, and G.W. Scherer, pp. 207-212 in Creep, Shrinkage and Durability of Concrete and Concrete Structures, ed. G.Pijaudier-Cabot, B. Gérard, P. Acker (Hermes, London, 2005)
204. “Measuring permeability and bulk modulus of cementitious materials”, Z.C. Gras-ley, J.J. Valenza II, G.W. Scherer, D.A. Lange, pp. 213-218 in Creep, Shrinkage and Durability of Concrete and Concrete Structures, ed. G.Pijaudier-Cabot, B. Gérard, P. Acker (Hermes, London, 2005)
205. “Mechanism for Salt Scaling”, J.J. Valenza II and G.W. Scherer, J. Am. Ceram. Soc. 89 [4] 1161–1179 (2006)
206. “Dynamic Pressurization Method for Measuring Permeability and Modulus: I. Theo-ry”, G.W. Scherer, Materials and Structures, 2006
207. “Controlling stress from salt crystallization”, J. Houck and G.W. Scherer, pp. 299-312 in Fracture and Failure of Natural Building Stones, ed. S.K. Kourkoulis (Springer, Dordrecht, 2006)
208. “Effect of the pore size distribution on crystallization pressure”, G. Chanvillard and G.W. Scherer, pp. 669-673 in Measuring, Monitoring and Modeling Concrete Properties, ed. M.S. Konsta-Gdoutos (Springer, Dordrecht, The Netherlands, 2006)
209. “Evaluating the potential damage to stones from wetting and drying cycles”, I. Jiménez González and G.W. Scherer, pp. 685-693 in Measuring, Monitoring and Modeling Concrete Properties, ed. M.S. Konsta-Gdoutos (Springer, Dordrecht, The Netherlands, 2006)
210. “Controlling stress from swelling clay”, Timothy Wangler, Angela Wylykanowitz, and G.W. Scherer, pp. 703-708 in Measuring, Monitoring and Modeling Concrete Properties, ed. M.S. Konsta-Gdoutos (Springer, Dordrecht, The Netherlands, 2006)
211. “Internal stress and cracking in stone and masonry”, G.W. Scherer, pp. 633-641 in Measuring, Monitoring and Modeling Concrete Properties, ed. M.S. Konsta-Gdoutos (Springer, Dordrecht, The Netherlands, 2006)
212. “Dynamic Pressurization Method for Measuring Permeability and Modulus: II. Ce-mentitious materials”, Z.C. Grasley, G.W. Scherer, D.A. Lange, and J.J. Valenza II, Materials and Structures, 40 [7] (2007) 711-721
213. “Mechanism for Salt Scaling of a Cementitious Surface”, J.J. Valenza II and G.W. Scherer, Materials and Structures, 40 (2007) 259-268
214. “A commented translation of the paper by C.W. Correns and W. Steinborn on crystallization pressure”, R.J. Flatt, M. Steiger, G.W. Scherer, Env. Geo. 52 [2] (2007) 187-203
215. “Particle-modified consolidants: A study on the effect of particles on sol-gel properties and consolidation effectiveness”, C. Miliani, M.L. Velo-Simpson, G.W. Scherer, J. Cult. Herit. 8 (2007) 1-6
216. “New Methods to Measure Liquid Permeability in Porous Materials”, G.W. Scherer, J. J. Valenza II, and G. Simmons, Cement Concr. Res. 37 (2007) 386–397
217. “Relaxation and Glass Transition in an Isostatically Compressed Diopside Glass”, L. Wondraczek, H. Behrens, Y. Yue, J. Deubener, G.W. Scherer, J. Am. Ceram. Soc. 90 [5] (2007) 1556–1561
218. “A Review of Salt Scaling: I. Phenomenology”, J.J. Valenza II and G.W. Scherer, Cement Concrete Res. 37 (2007) 1007–1021
219. “A Review of Salt Scaling: II. Mechanisms”, J.J. Valenza II and G.W. Scherer, Cement Concrete Res. 37 (2007) 1022-1034
220. “Ability of the Glue Spall Model to Account for the De-Icer Salt Scaling Deterio-ration of Concrete”, M-H Tremblay, F. Lory, J. Marchand, G. W. Scherer, J.J. Valenza, paper W4-07.3 in Proc. 12th ICCC, eds. J.J. Beaudoin, J.M. Makar, L. Raki (National Research Council of Canada, Montreal, Canada, 2007) ISBN 978-0-660-19695-4
221. “Kinetics of Ice Growth in Concrete”, Z. Sun, D. Kumpf, and G.W. Scherer, pa-per W4-07.1 in Proc. 12th Int. Cong. Cement Chemistry, eds. J.J. Beaudoin, J.M. Makar, L. Raki (National Research Council of Canada, Montreal, Canada, 2007) ISBN 978-0-660-19695-4
222. “The Effect of Carbonated Brine on Well Cement Used in Geologic Formations.”, A. Duguid, M. Radonjic, and G. W. Scherer, paper TH4-10.2 in Proc. 12th ICCC, eds. J.J. Beaudoin, J.M. Makar, L. Raki (National Research Council of Canada, Montreal, Canada, 2007) ISBN
223. “Permeability reduction in sandstone by in situ formed silica gel”, H. J. Castelijns, G. W. Scherer, L. Pel, and P. L. J. Zitha, J. Appl. Phys. 102, 114901 (2007) 1-10
224. “The microstructure of hybrid silica gels and its modificationby evaporative and supercritical dryings”, C.J. Gommes, Silvia Blacher, J.-P. Pirard, and G.W. Scherer, J. Sol-Gel Sci Technol 44 (2007) 211–218
225. “Thermodynamics of crystallization stresses in DEF”, R.J. Flatt and G.W. Scher-er, Cement Concrete Res. 38 (2008) 325–336
226. “Poromechanics Analysis of a Flow-Through Permeameter with Entrapped Air”, G.W. Scherer, Cement Concr. Res. 38 (2008) 368–378
227. “Characterization and Modeling of Pores and Surfaces in Cement Paste: Correla-tions to Processing and Properties”, H.M. Jennings, J.W. Bullard, J.J. Thomas, J.E. Andrade, J.J. Chen and G.W. Scherer, J. Adv. Concr. Technol. 6 [1] (2008) 5-29
228. “Modeling damage from ice and salt”, G.W. Scherer, pp. 13-23 in Proc. Int. RILEM Symp. On Concrete Modelling (CONMOD ’08), eds. E. Schlangen and G. DeSchutter (RILEM, Bagneux, France, 2008) ISBN-13: 978-2-35158-060-8
229. “Kinetics of ice growth in cement and concrete”, Z. Sun and G.W. Scherer, pp. 183-190 in Int. RILEM Symp. On Concrete Modelling (CONMOD ’08), eds. E. Schlangen and G. DeSchutter (RILEM, Bagneux, France, 2008) ISBN-13: 978-2-35158-060-8
230. “Swelling clays and salt crystallization: Damage mechanisms and the role of con-solidants”, G.W. Scherer and I. Jiménéz Gonzalez, pp. 29-39 in Proc. Int. Symp. Stone consolidation in cultural heritage, eds. J. Delgado Rodrigues and J. Manuel
Mimoso (Laboratório Nacional de Engenharia Civil, Lisbon, 2008) ISBN 978-972-49-2135-8
231. “The role of clay minerals in the physico-mechanical deterioration of sandstone”, I. Jiménez González, C. Rodríguez-Navarro, and G.W. Scherer, J. Geophysical Res. 113, F02021, doi:10.1029/2007JF000845
232. “Clay Swelling Mechanism in Clay-Bearing Sandstones”, T. Wangler, G. W. Scherer, Env. Geo. 56 (2008) 529–534 [DOI 10.1007/s00254-008-1380-3]
233. “Crystallization of sodium sulfate salts in limestone”, R.M. Espinosa Marzal, G.W. Scherer, Env. Geo. 56 [3-4] (2008) 605-621 [DOI 10.1007/s00254-008-1441-7]
234. “Silicate Consolidants for Stone”, G.W. Scherer and G. S. Wheeler, Key Engi-neering Materials Vol. 391 (2009) pp 1-25 (online at http://www.scientific.net © (2009) Trans Tech Publications, Switzerland)
235. “Comparison between flexural and uniaxial compression tests to measure the elas-tic modulus of silica aerogel”, A. Hafidi Alaoui, T. Woignier, G.W. Scherer, J. Phalippou, J. Non-Cryst. Solids 354 (2008) 4556–4561
236. “Study of the pore clogging induced by salt crystallization in Indiana limestone”, R. M. Espinosa Marzal1, G. W. Scherer, Proc. 11th Int. Cong. Deterioration and Conservation of Stone (Nicolaus Copernicus University Press, Torun, Poland, 2008) Vol. I, pp. 81-88
237. “Swelling damage mechanism for clay-bearing sandstones”, P. Duffus, T. Wan-gler, and G.W. Scherer. Proc. 11th Int. Cong. Deterioration and Conservation of Stone (Nicolaus Copernicus University Press, Torun, Poland, 2008) Vol. I, pp. 65-72
238. “Molecular Mechanisms Causing Anomalously High Thermal Expansion of Nanoconfined Water”, S.H. Garofalini, T.S. Mahadevan, S. Xu, and G.W. Scherer, Chem. Phys. Chem. 9 (2008) 1997 – 2001
239. “Kinetics of ice growth in cement paste”, Z. Sun, O. Abellan & G.W. Scherer, in Proc. 8th Int. Conf. Creep, Shrinkage and Durability of Concrete and Concrete Structures (ConCreep8), Ise-Shima, Japan (2008) 951~956
240. “Thermal Expansion of Confined Water”, S. Xu, G.W. Scherer, T.S. Mahadevan, and S.H. Garofalini, Langmuir, 25 [9] (2009) 5076–5083
241. “Transport of Water in Small Pores”, S. Xu, G.C. Simmons, T.S. Mahadevan, G.W. Scherer, S.H. Garofalini, C. Pacheco, Langmuir 25 [9] (2009) 5084-5090
242. “Controlling swelling of Portland Brownstone”, T. Wangler and G.W. Scherer, J. Mater. Res. 24 [5] (2009) 1646-1652
243. “Finite-Element Analysis of the Bending of a Saturated Beam”, G.W. Scherer, J.H. Prévost, Z. Wang, pp. 890-895 in Poromechanics IV, Proc. Fourth Biot Conf. on Poromechanics, New York, 2009. eds. H.I. Ling, A. Smyth, R. Betti (DEStech Pub-lications, Lancaster, PA, 2009)
244. “Effect of Air Voids on the Dilatation of Mortar During Freezing”, Z. Sun and G.W. Scherer, p. 896-901 in Poromechanics IV, Proc. Fourth Biot Conf. on Porome-chanics, New York, 2009. eds. H.I. Ling, A. Smyth, R. Betti (DEStech Publications, Lancaster, PA, 2009)
245. “Crystallization Pressure Exerted by in-Pore Confined Crystals”, R.M. Espinosa-Marzal and G.W. Scherer, pp. 1013-1018 in Poromechanics IV, Proc. Fourth Biot
Conf. on Poromechanics, New York, 2009. eds. H.I. Ling, A. Smyth, R. Betti (DE-Stech Publications, Lancaster, PA, 2009)
246. “Bending of a Poroelastic Beam with Lateral Diffusion”, G.W. Scherer, J.H. Pré-vost, and Z.-H. Wang, Int. J. Solids and Structures 46 (2009) 3451–3462
247. “Use of a Dissociative Potential to Simulate Hydration of Na+ and Cl- ions”, M.B. Webb, S. H. Garofalini, and G. W. Scherer, J. Phys. Chem. B, 113 (2009) 9886–9893
248. “Structural effect on the plastic behavior in highly porous glasses”, T. Woignier, A. Hafidi Alaoui, J. Primera, J. Phalippou, G. W. Scherer, Key Engineering Mate-rials Vol. 423 (Trans Tech Publications, Switzerland, 2010) pp 15-24
249. “Carbonation of Wellbore Cement by CO2 Diffusion from Caprock”, G.W. Scherer and B. Huet, Int. J. Greenhouse Gas Control, 3 (2009) 731–735
doi:10.1016/j.ijggc.2009.08.002 250. “Effect of Air Voids on Salt Scaling”, Z. Sun and G.W. Scherer, Cement Concr.
Res. 40 (2010) 260–270 251. “Pore size and shape in mortar by thermoporometry”, Z. Sun and G.W. Scherer,
Cement Concr. Res. 40 (2010) 740–751 252. “Effect of pressure on early hydration of class H and white cement”, G.W. Scher-
er, G.P. Funkhouser, and S. Peethamparan, Cement Concr. Res. 40 (2010) 845–850
253. “Quantitative reactive transport modeling of Portland cement in CO2 saturated water”, Bruno M. Huet, Jean H. Prevost, George W. Scherer, Int. J. Greenhouse Gas Control, 4 (2010) 561–574
254. “Degradation of Oilwell Cement Due to Exposure to Carbonated Brine”, Andrew Duguid, George W. Scherer, Int. J. Greenhouse Gas Control, 4 (2010) 546–560
255. “Mechanisms of damage by salt”, R.M. Espinosa-Marzal & G. W. Scherer, pp. 61-77 in Limestone in the Built Environment: Present-Day Challenges for the Preservation of the Past. B.J. Smith, M. Gomez-Heras, H.A. Viles & J. Cassar (eds), Special Publications 331 (Geological Society, London, 2010)
256. “Advances in Understanding Damage by Salt Crystallization”, R.M. Espinosa-Marzal & G. W. Scherer, Accounts of Chemical Research 43 [6] (2010) 897-905 DOI: 10.1021/ar9002224
257. “Monitoring Chemical Shrinkage Using Pressure Sensors”, S. Peethamparan, E. Weissinger, J. Vocaturo, J. Zhang, and G.W. Scherer, ACI Special Proceedings in CD on Advances in the Material Science of Concrete , SP-270, 2010, pp. 77-88
258. “Early hydration and setting of oil well cement”, J. Zhang, E.A. Weissinger, S. Peethamparan, G.W. Scherer, Cement Concr. Res. 40 (2010) 1023–1033
259. “The formation of meta-stable sodium sulfate heptahydrate in porous materials as studied by NMR”, L. Pel, T. Saidov, R. Espinosa-Marzal, G. Scherer, MEDACHS 10, eds. A.K. Ait-Mokhtar and D. Breysse (MEDACHS, La Rochelle, France, 2010) 47-54
260. “Measurement and Simulation of Dendritic Growth of Ice in Cement Paste”, Z. Sun and G.W. Scherer, Cem. Concr. Res. 40 (2010) 1393–1402
doi:10.1016/j.cemconres.2010.03.008
261. “Characterization of Cement from a Well at Teapot Dome Oil Field: Implications for Geologic Sequestration”, G.W. Scherer, B. Kutchko, N. Thaulow, A. Duguid, B. Mook, Int. J. Greenhouse Gas Control, 5 (2011) 115–1240
262. “Mechanisms of Cement Hydration”, J.W. Bullard, H.M. Jennings, R.A. Living-stone, A. Nonat, G.W. Scherer, J.S. Schweitzer, K.L. Scrivener, J.J. Thomas, Cem. Concr. Res. 41 (2011) 1208–1223
263. “Flaw propagation and buckling in clay-bearing sandstones”, T.P. Wangler, A. Stratulat, P. Duffus, J.-H. Prévost, G.W. Scherer, Environ. Earth Sci. 63 [7-8] (2011) 1565-1572
264. “Can drying and re-wetting of magnesium sulfate salts lead to damage of stone?”, E. Balboni, R.M. Espinosa-Marzal, E. Doehne, G.W. Scherer, Env. Geo. 63 [7-8] (2011) 1463-1473
265. “Modeling and simulation of cement hydration kinetics and microstructure devel-opment”, J.J. Thomas, J.J. Biernacki, J.W. Bullard, S. Bishnoi, J.S. Dolado, G.W. Scherer, and A. Luttge, Cem. Concr. Res. 41 (2011) 1257–1278
266. “The use of hydroxyapatite as a new inorganic consolidant for damaged carbonate stones”, Enrico Sassoni, Sonia Naidu, George W. Scherer, Journal of Cultural Heritage 12 (2011) 346–355
267. “LUCI: A facility at DUSEL for large-scale experimental study of geologic car-bon sequestration”, C.A. Peters, P.F. Dobson, C.M. Oldenburg, J.S.Y. Wang, T.C. Onstott, G.W. Scherer, B.M. Freifeld, T.S. Ramakrishnan, E.L. Stabinski, K. Liang, S. Verma, Energy Procedia 4 (2011) 5050–5057
268. “Poromechanics of Frost Damage”, G.W. Scherer, pp. 153-168 in Proc. Mechan-ics and Physics of Porous Solids, Champs-sur-Marne, April, 2011 (Ifsttar, Paris, 2011) ISBN 978-2-7208-2593-4
269. “Preliminary Results of the Use of Hydroxyapatite as a Consolidant for Carbonate Stones”, E. Sassoni, S. Naidu, and G.W. Scherer, Paper WW4.5, Materials Re-search Society Symposium WW, Materials Issues in Art and Archaeology IX, November 29 - December 2, 2010, Boston, MRS Online Proceedings Library, 1319 (2011) mrsf10-1319-ww04-05
270. “The chemomechanics of sodium sulfate crystallization in thenardite impregnated limestones during re-wetting”, R.M. Espinosa-Marzal, A. Hamilton, M. McNall, K. Whitaker, and G.W. Scherer, J. Mater. Res. 26 [12] (2011) 1472-1481
271. “Why alite stops hydrating below 80% relative humidity”, R.J. Flatt, G.W. Scher-er, and J.W. Bullard, Cement Concr. Res. 41 (2011) 987–992
272. “New Treatment for Corrosion-Resistant Coatings for Marble and Consolidation of Limestone”, S. Naidu, E. Sassoni, and G.W. Scherer, pp. 289-294
273. “Comparison of methods for arresting hydration of cement”, J. Zhang and G.W. Scherer, Cement Concr. Res. 41 (2011) 1024–1036
274. “Heptahydrate I: The growth of sodium sulfate heptahydrate crystals”, H. Der-luyn, T.A. Saidov, R.M. Espinosa-Marzal, L. Pel, G.W. Scherer, J. Crystal Growth 329 (2011) 44–51
275. “Experimental Study of the Diffusion-Controlled Acid Degradation of Class H Portland Cement”, E.N. Matteo and G.W. Scherer, Int. J. Greenhouse Gas Control 7 (2012) 181–191
276. “Molecular Dynamics Investigation of Solution Structure between NaCl and Quartz Crystals”, M.B. Webb, S.H. Garofalini, and G.W. Scherer, J. Phys. Chem. C 115 (40) 19724–19732
277. “Understanding Boundary Condition Effects on the Corrosion Kinetics of Class H Well Cement”, E.N. Matteo, G.W. Scherer, B. Huet, and L. Pel, Energy Procedia 4 (2011) 5370–5376
278. “Nucleation of sodium sulfate heptahydrate on mineral substrates studied by Nu-clear Magnetic Resonance”, T.A. Saidov, R.M. Espinosa-Marzal, Leo Pel, G.W. Scherer, J. Crystal Growth 338 (2012) 166-169
279. “Degradation of cement at the reservoir/cement interface from exposure to car-bonated brine”, A. Duguid, M. Radonjic, and G.W. Scherer, Int. J. Greenhouse Gas 5 (2011) 1413–1428
280. “Hydration and Percolation at the Setting Point”, G.W. Scherer, J. Zhang, J. Quin-tanilla, S. Torquato, Cement Concr. Res. 42 [5] (2012) 665–672
281. “Nucleation and Growth Models for Hydration of Cement”, G.W. Scherer, J. Zhang, and J.J. Thomas, Cement Concr. Res. 42 (2012) 982–993
282. “Permeability of shale by the beam-bending method”, J. Zhang and G.W. Scherer, Int. J. Rock Mechanics and Mining 53 (2012) 179–191
283. “Predicting Durability of Novel Cements”, G.W. Scherer, J. Chinese Ceramic So-ciety 40 [7] (2012) 1071-1080
284. “Prediction of the degree of hydration at initial setting time of cement paste with particle agglomeration”, J.-J. Zheng, J. Zhang, G.W. Scherer, Cement Concr. Res. 42 (2012) 1280–1285
285. “Influence of fly ash on air entrainment”, L.E. Tunstall and G.W. Scherer, 8 p., paper C3-1 in Proc. Int. Cong. Durability of Concrete, Trondheim, Norway, June 18-21, 2012, Eds. Harald Justnes, Stefan Jacobsen, ISBN 978-82-8208-031-6
286. “Models of Confined Growth”, G.W. Scherer, Cement Concr. Res. 42 (2012) 1252–1260
287. “Microstructural and mechanical effects of heating as an artificial weathering method for stone in consolidants testing”, E. Franzoni, E. Sassoni, F. Fusi, G.W. Scherer, S. Naidu, pp. 332-337 in Proc. 5th Int. Cong. Sci. Technol. Safeguard of Cultural Heritage in the Mediterranean Basin, Istanbul (2012), held 22-25 No-vember 2011
288. “Effectiveness of hydroxyapatite as a consolidating treatment for lithotypes with varying carbonate content and porosity”, E. Sassoni, E. Franzoni, B. Pigino, G.W. Scherer, S. Naidu, pp. 338-343 in Proc. 5th Int. Cong. Sci. Technol. Safeguard of Cultural Heritage in the Mediterranean Basin, Istanbul (2012), held 22-25 No-vember 2011
289. “Impact of in-pore salt crystallization on transport properties”, R.M. Espinosa-Marzal and G.W. Scherer, Env. Earth Sci. [November] (2012) DOI 10.1007/s12665-012-2087-z
290. “Crack engineering in thick coatings prepared by spray pyrolysis deposition”, S. B. Weber, T. Grande, G. W. Scherer, M.-A. Einarsrud, J. Am. Ceram. Soc. (2012) 1–9; DOI: 10.1111/jace.12129
291. “Predicting AEA dosage by Foam Index and adsorption on Fly Ash”, S. Jacobsen, M. Ollendorff, M. Geiker, L. Tunstall, and G.W. Scherer, pp. 103-120, Proc. Nor-
dic Concrete Federation Workshop on Durability aspects of fly ash and slag in concrete, (Norw. Public Roads Adm. Oslo, 15-16 February 2012)
292. “Consolidation of calcareous and siliceous sandstones by hydroxyapatite: compar-ison with a TEOS-based consolidant”, E. Sassoni, E. Franzoni, B. Pigino, G.W. Scherer, S. Naidu, J. Cultural Heritage 14 [3] (2012) e103-e108
293. “Artificial weathering of stone by heating”, E. Franzoni, E. Sassoni, G.W. Scher-er, S. Naidu, J. Cultural Heritage 14 [3] (2012) e85-e93
294. “Pressure from Crystallization in Pore Channels”, G.W. Scherer and S. Gupta, pp. 766-771 in Poromechanics V: Proceedings of the Fifth Biot Conference on Poro-mechanics, eds. C. Hellmich, B. Pichler, D. Adam (Am. Soc. Civil Eng., Reston, VA, 2013) 978-0-7844-1299-2 (CD-Rom), doi: http://dx.doi.org/10.1061/9780784412992.268
295. “Supersaturation in Porous Media”, G.W. Scherer, pp. 2290-2296 in Porome-chanics V: Proceedings of the Fifth Biot Conference on Poromechanics, eds. C. Hellmich, B. Pichler, D. Adam (Am. Soc. Civil Eng., Reston, VA, 2013) 978-0-7844-1299-2 (CD-Rom), doi: http://dx.doi.org/10.1061/9780784412992.092
296. “Hydroxyapatite-based consolidant and the acceleration of hydrolysis of silicate-based consolidants”, S. Naidu, C. Liu, G.W. Scherer, J. Cultural Heritage (2014) http://dx.doi.org/10.1016/j.culher.2014.01.001
297. “An image analysis procedure to quantify the air void system of mortar and con-crete”, P.C. Fonseca, G.W. Scherer, Materials and Structures,
DOI 10.1617/s11527-014-0381-9 298. “Chemo-mechanics of salt damage in stone”, R.J. Flatt, F. Caruso, A.M. Aguilar
Sanchez, G.W. Scherer, Nature Commun. 5:4823 doi: 10.1038/ncomms5823 (2014)
299. “Nucleation, growth and evolution of calcium phosphate films on calcite”, S. Naidu and G.W. Scherer, J. Colloid Interface Sci. 435 (2014) 128–137
300. “Viscosity of bimodal suspensions with hard spherical particles”, J. Spangenberg, G.W. Scherer1,2, Adam B. Hopkins, and Salvatore Torquato, J. Appl. Phys. 116, 184902 (2014); doi: 10.1063/1.4901463
301. “Development of hydroxyapatite films to reduce the dissolution rate of marble”, S. Naidu and G.W. Scherer, Proc. 12th Int. Cong. Deterioration and Conservation of Stone, New York, 2012 (http://iscs.icomos.org/cong-12.html)
302. “Consolidation of a porous limestone by means of a new treatment based on hy-droxyapatite”, E. Sassoni, E. Franzoni, G.W. Scherer, S. Naidu, Proc. 12th Int. Cong. Deterioration and Conservation of Stone, New York, 2012 (http://iscs.icomos.org/cong-12.html)
303. “Swelling pressure and stress development in clay-bearing sandstones”, Timothy Wangler, Elaine Ngo, and George W. Scherer, Proc. 12th Int. Cong. Deterioration and Conservation of Stone, New York, 2012 (http://iscs.icomos.org/cong-12.html)
304. “Concrete/Ice abrasion mechanics”, S. Jacobsen, G.W. Scherer, and E.M. Schul-son, Cem. Concr. Res. 73 (2015) 79–95
305. “Time dependent driving forces and the kinetics of tricalcium silicate hydration”, J.W. Bullard, G.W. Scherer, and J.J. Thomas, Cem. Concr. Res. 74 (2015) 26–34
306. “Nucleation, Growth and Evolution of Hydroxyapatite Films on Calcite”, S. Nai-du, J.M. Blair and G.W. Scherer, MRS Proceedings, Vol. 1656 (2015) mrsf13-1656-pp08-04 doi:10.1557/opl.2014.814.
307. “Hydroxyapatite-based consolidant and the acceleration of hydrolysis of silicate-based consolidants”, S. Naidu, C. Liu, G.W. Scherer, in Materials Issues in Art and Archaeology X, MRS Symposium Proc. Vol. 1656 (2015), eds. P.B. Van-diver, M. Goodway, and J.L. Mass (Materials Res. Soc., Warrendale, PA, 2014) DOI: http://dx.doi.org/10.1557/opl.2014.712
308. “Drying, Shrinkage, and Cracking of Cementitious Materials”, G.W. Scherer, Transp. Porous Med., 110 [2] (2015) 311-331 DOI 10.1007/s11242-015-0518-5
309. “ECCENTRIC Buildings: Evaporative Cooling in Constructed ENvelopes by Transmission and Retention Inside Casings of Buildings”, E. Teitelbaum, F. Meggers, G. Scherer, P. Ramamurthy, L. Wang, E. Bou-Zeid, Energy Procedia 78 (2015) 1593-1598
310. “Hydroxyapatite coatings for marble protection: optimization of calcite covering and acid resistance”, G. Graziani, E. Sassoni, E. Franzoni, G.W. Scherer, Appl. Surf. Sci. 368 (2016) 241–257
311. “Thermo-Mechanical Compatibility of Viscoelastic Mortars for Stone Repair”, T. Demoulin, G.W. Scherer, F. Girardet, and R.J. Flatt, Materials 9 [1] (2016) 26 pp.; article #56; doi:10.3390/ma9010056
312. “Shape Effect of Crushed Sand Filler on Rheology: A Preliminary Experimental and Numerical Study”, J. Spangenberg, R. Cepuritis, E. Hovad, G. W. Scherer, S. Jacobsen, pp. 193-202 in 8th Int. RILEM Symp. Self-Compacting Concrete, Ed. Kamal H. Khayat (RILEM Publ. 2016) ISBN: 978-2-35158-156-8
313. “Adhesion and bonding between steel pipe and cement/spacer/mud system”, Z. Zhang, G.W. Scherer, and R.K. Prud’homme, pp. 1-8 in Proc. 9th Int. Conf. Frac-ture Mechanics of Concrete and Concrete Structures FraMCoS-9, Eds. V. Saou-ma, J. Bolander and E. Landis. DOI 10.21012/FC9.313
314. “Acid-Resistant Coatings on Marble”, S. Naidu, J. Blair, G.W. Scherer, J. Am. Ceram. Soc. (2016) DOI: 10.1111/jace.14355
315. “Acrylic-based mortar for stone repair: a viscoelastic analysis of the thermal stresses”, T. Demoulin, G.W. Scherer, F. Girardet and R.J. Flatt, pp. 521-528 in Science and Art: A Future for Stone: Proceedings of the 13th International Con-gress on the Deterioration and Conservation of Stone, Vol. I. Eds. J. Hughes & T. Howind (Paisley, Univ. West of Scotland, 2016)
316. “Marble protection by hydroxyapatite coatings” G. Graziani, E. Sassoni, E. Franzoni, G.W. Scherer, pp. 803-810 in Science and Art: A Future for Stone: Proceedings of the 13th International Congress on the Deterioration and Conser-vation of Stone, Vol. II. Eds. J. Hughes & T. Howind (Paisley, Univ. West of Scotland, 2016)
317. “Use of consolidants and pre-consolidants in sandstone with swelling clay at the Municipal Theatre of São Paulo”, D. Grossi, E.A. Del Lama and G.W. Scherer, pp. 811-816 in Science and Art: A Future for Stone: Proceedings of the 13th In-ternational Congress on the Deterioration and Conservation of Stone, Vol. II. Eds. J. Hughes & T. Howind (Paisley, Univ. West of Scotland, 2016)
318. “Consolidation of sugaring marble by hydroxyapatite: some recent developments on producing and treating decayed samples”, E. Sassoni, G. Graziani, E. Franzoni, G.W. Scherer, pp. 947-954 in Science and Art: A Future for Stone: Proceedings of the 13th International Congress on the Deterioration and Conservation of Stone, Vol. II. Eds. J. Hughes & T. Howind (Paisley, Univ. West of Scotland, 2016)
319. “Mineral Consolidants”, G.W. Scherer and E. Sassoni, pp. 1-10 in Int. RILEM Conf. Materials, Systems and Structures in Civil Eng. on Historical Masonry, Eds. Inge Rörig-Dalgaard and Ioannis Ioannou (RILEM, Tech. Univ. Denmark, Lyngby, Denmark, 2016) ISBN: 978-2-35158-174-2
320. “Foam index measurements on mixes of Air entraining agents, super plasticizers and fly ash-cement-filler blends”, S. Jacobsen, H. Nordahl, H. Rasol, Ø. Lødemel, L.Tunstall & G.W.Scherer, pp. 61-70 in Int. RILEM Conf. Materials, Systems and Structures in Civil Eng. on Frost Action in Concrete, Eds. Marianne Tange Hasholt, Katja Fridh and R. Doug Hooton (RILEM, Tech. Univ. Denmark, Lyngby, Denmark, 2016) ISBN: 978-2-35158-182-7
321. “Freezing induced stresses in concrete-steel composite beams and effect of air voids”, S. Jacobsen and George W. Scherer, pp. 71-80 in Int. RILEM Conf. Mate-rials, Systems and Structures in Civil Eng. on Frost Action in Concrete, Eds. Ma-rianne Tange Hasholt, Katja Fridh and R. Doug Hooton (RILEM, Tech. Univ. Denmark, Lyngby, Denmark, 2016) ISBN: 978-2-35158-182-7
322. “Linking surfactant molecular structure to mortar frost protection”, L.E. Tunstall, G.W. Scherer, R.K. Prud’homme, pp. 191-200 in Int. RILEM Conf. Materials, Systems and Structures in Civil Eng. on Frost Action in Concrete, Eds. Marianne Tange Hasholt, Katja Fridh and R. Doug Hooton (RILEM, Tech. Univ. Denmark, Lyngby, Denmark, 2016) ISBN: 978-2-35158-182-7
323. “On-site monitoring for better selection of stone repairs: a case study”, T. Demou-lin, F. Girardet, T.P. Wangler, G.W. Scherer, and R.J. Flatt, Herit. Sci. 4 [38] (2016) 1-17
324. “Studying AEA Interaction in Cement Systems Using Tensiometry”, L.E. Tun-stall, G.W. Scherer, and R.K. Prud’homme, Cem. Concr. Res. 92 (2017) 29–36
325. “Solid Solution Model for C-S-H”, J.W. Bullard and G.W. Scherer, J. Am. Ce-ram. Soc. 99 [12] (2016) 4137–4145
In press: “Kinetic Analysis of C-S-H Growth on Calcite”, G.W. Scherer and F. Bellmann, Cem. Concr. Res. Submitted: “Analysis of C-S-H growth rates in supersaturated conditions”, R. Bellmann, G.W. Scherer, Cem. Concr. Res.
“Rheological evaluation of compatibility in oil well cementing”, M. Choi, G.W. Scherer, R.K. Prud’homme, Appl. Rheol. “Precipitation/Dissolution of Calcium Carbonate in Wellbore Cement and its Implica-tions for the Seal Integrity of Abandoned Wells”, E.N. Matteo, B. Huet, and G.W. Scher-er, Int. J. Greenhouse Gas Control,