Abstract The rheological characterisation of chestnut flour doughs with chia flour at 4.0 g/100 g flour basis and a hydrocolloid (guar gum, hydroxypropyl methyl cellulose (HPMC) or tragacanth gum) at different concentrations (0.5, 1.0, 1.5, 2.0 g/100 g, f.b.) was carried out at 30 °C using a controlled stress rheometer. Previously, the mixing behaviour was determined using Mixolab® apparatus. Measurements of shear (0.01–10 s−1), oscillatory (1–100 rad s−1 at 0.1% strain), creep-recovery (loading of 50 Pa for 60 s) and temperature sweep (30–100 °C) were performed. The simultaneous presence of chia and hydrocolloids modified significantly the rheological properties of doughs. Apparent viscosity at constant shear rate and storage and loss moduli at constant angular frequency decreased with increasing hydrocolloid content, except for tragacanth gum which loss modulus exhibited a reverse trend. Creep-recovery data showed that doughs elasticity improved with the presence of guar (65.9%), HPMC (64.8%) or tragacanth (45.8%) at 1.0, 2.0 and 1.0 (g/100 g, f.b.), respectively. Flow curves, mechanical spectra and creep-recovery curves obtained experimentally were satisfactorily fitted using Cross, power and Burgers models, respectively. Gelatinization temperatures decreased with increasing additive content for all systems.