Title:
Modelling early age drying in fibre-reinforced concretes
Author(s):
Tara Rahmani; Mehdi Bakhshi; Barzin Mobasher; Mohammad Shekarchi
Publication:
Symposium Paper
Volume:
310
Issue:
Appears on pages(s):
141-150
Keywords:
Fibre-reinforced concrete, drying, plastic shrinkage, cracking, diffusivity.
DOI:
Date:
3/17/2017
Abstract:
Plastic shrinkage cracking due to a high rate of evaporation detrimentally affects durability and serviceability of concrete structures. The effect of different types of fibres to control these
cracks, including steel, glass, polypropylene, and polyolefin fibres on the moisture loss and evaporation rates is investigated by performing ASTM C1579 tests. Using a dual stage methodology of constant drying rate period (stage I) and falling drying rate period (stage II), results are analysed. Moisture diffusivities are computed which in turn can be used for modelling the drying shrinkage and cracking under different environmental conditions. The formation of microcracks is documented using digital photography and processed by image analysis. The results show that moisture diffusivities at stage I drying are similar to each other
between FRC and control samples. These magnitudes are approximately 50 times higher than diffusivities at stage II drying. The main difference is observed in stage II drying where the diffusivities in FRC are lower compared to plain concrete. Image analysis results indicate significant effects of fibres on controlling plastic shrinkage cracks.