Creep and Shrinkage Characterisation for Analyzing Prestressed Concrete Structures

D eformations due to creep and shrinkage are normally several times larger than elastic deformations in concrete structures. Frequently, these deformations cause excessive cracking and deflections or possible failure with an inherent loss in serviceability, durability and long-time safety of concrete structures. Thus, there is an urgent need for a reliable method to predict creep and shrinkage, especially for slender prestressed concrete structure's. Recently, we have witnessed efforts to introduce creep and shrinkage into design recommendations 1,2,3 and to develop more realistic prediction formulas.4 Over the last decade, however, the subject has been plagued by persistent disagreement as to what is the proper and optimal formulation to be used.s8 Although several pertinent conclusions have been drawn from theoretical arguments, 8 we shall deliberately leave them out. The most relevant and convincing argument is, of course, the experimental evidence and how well the data correlate with the actual behavior of existing structure s. Although this has not been generally realized, vast experimental information on creep and shrinkage has already been accumulated in the literature. 4 Unfortunately, the provisions of a recent international model code were supported by very limited comparisons with test data, selected somewhat arbitrarily. This was under-