The theological properties of chestnut flour (CF) doughs with different particle size were studied using a controlled stress rheometer. The mixing curves and heating-cooling cycle responses were previously obtained from the Mixolab (R) apparatus. Shear measurements (0.1-10 s(-1)), oscillation measurements (1-100 rad s(-1) at 0.1% strain), temperature sweep (30-100 degrees C) to achieve the gelatinization temperatures and creep-recovery tests (loading of 50 Pa for 60 s) were conducted in the rheometer. Mixolab (R) showed that CF samples with smaller particle size needed more water absorption to reach a consistency of 1.1 Nm. Shear viscosities of CF doughs exhibited a Newtonian plateau at low shear rate and shear thinning behaviour at higher shear rate. Apparent viscosity increased with increasing average particle size and steady-flow curves were fitted using Cross model. Oscillatory measurements of CF dough showed that the storage modulus, G', was greater than loss modulus, G '', for all samples in the tested angular frequency range. CF samples with smaller particle size presented lower G' and G '' values. Creep-recovery tests of these flours showed that elasticity was limited and unrecoverable proportion was very high. Gelatinization temperatures measured using Mixolab (R) and rheometer were practically coincident. (C) 2010 Elsevier Ltd. All rights reserved.