In this work, doughs made with gluten add chickpea composite flour were mixed to reach the 500BU standard and baked into bread products. Chickpea flour was substituted at the level of 20%, 30%, and 40% by wheat gluten to provide structural support for the dough. Higher gluten concentrations improved gas bubble retention as determined by crumb image analysis, resulting in higher final loaf volume. Dough samples were taken out of the fermentation chamber at 0, 30, 60, and 90 min to study the effect of fermentation on rheology. Utilizing SPP deltoids (Gt′ vs Gt″ plot), the intracycle and intercycle network rearrangement of dough were studied in details. Obtaining deltoids as a function of fermentation time offers an insight into the impact of fermentation on dough structure. It is found that longer fermentation time makes gluten-chickpea composite dough more elastic in the linear region (<1% strain) and less elastic in the nonlinear region. This work helps to demonstrate an application of SPP analysis in facilitating the development of innovative bread products made with a mixture of pulse flour and wheat gluten.