An electronic monograph:modelling and measuring the structure and properties of cement-based materials
Garboczi, E. J., Bentz, D. P., Snyder, K. A., Martys, N. S., Stutzman, P. E., Ferraris, C. F. and Bullard, J. W.
2002 On line http://ciks.cbt.nist.gov/garbocz/monograph/tablecontents.html
Garboczi, E. J., Bentz, D. P., Snyder, K. A., Martys, N. S., Stutzman, P. E., Ferraris, C. F. and Bullard, J. W., (2002), "An electronic monograph:modelling and measuring the structure and properties of cement-based materials", On line http://ciks.cbt.nist.gov/garbocz/monograph/tablecontents.html.
Abstract:
Collection of a number of papers
Part I: Cement-based materials
1. Introduction 2. Concrete rheology 3. Cement and concrete characterization 4. Microstructure development of cement paste phases 5. Cement paste percolation, transport, and elastic properties 6. Mortar and concrete microstructure 7. Transport, elastic, and thermal properties of mortar and concrete 8. Autogeneous shrinkage of concrete 9. Modeling the degradation of mortar and concrete 10. Aggregates: Shape and properties, Appendix I-1 Summary of concrete and concrete modeling for non-cement-based materials researchers , Appendix I-2 CEMHYD3D: A three-dimensional cement hydration and microstructure development modeling package. Version 2.0 (4/00) Appendix I-3 User's Guide to the NIST Virtual Cement and Concrete Testing Laboratory. Version 1.0 (12/00)
Part II: General random porous materials
1. Introduction 2. Finite difference and finite element programs for random materials 3. Percolation theory 4. Microstructure development and probes 5. Conductivity 6. Fluid flow 7. Elastic properties Appendix II-1 Digital images of porous materials and computer modeling: Description of a digital toolkit