TY - JOUR AB - Purpose The purpose of this paper is to develop a simple analytical model for predicting the through-thickness distribution of residual stresses in a cold spray (CS) deposit-substrate assembly.Design/methodology/approach Layer-by-layer build-up of residual stresses induced by both the peening dominant and thermal mismatch dominant CS processes, taking into account the force and moment equilibrium requirements. The proposed model has been validated with the neutron diffraction measurements, taken from the published literature for different combinations of deposit-substrate assemblies comprising Cu, Mg, Ti, Al and Al alloys.Findings Through a parametric study, the influence of geometrical variables (number of layers, substrate height and individual layer height) on the through-thickness residual stress distribution and magnitude are elucidated. Both the number of deposited layers and substrate height affect residual stress magnitude, whereas the individual layer height has little effect. A good agreement has been achieved between the experimentally measured stress distributions and predictions by the proposed model.Originality/value The proposed model provides a more thorough explanation of residual stress development mechanisms by the CS process along with mathematical representation. Comparing to existing analytical and finite element methods, it provides a quicker estimation of the residual stress distribution and magnitude. This paper provides comparisons and contrast of the two different residual stress mechanisms: the peening dominant and the thermal mismatch dominant. The proposed model allows parametric studies of geometric variables, and can potentially contribute to CS process optimisation aiming at residual stress control. VL - 15 IS - 3 SN - 1573-6105 DO - 10.1108/MMMS-08-2018-0150 UR - https://doi.org/10.1108/MMMS-08-2018-0150 AU - Boruah Dibakor AU - Zhang Xiang AU - Doré Matthew PY - 2019 Y1 - 2019/01/01 TI - Theoretical prediction of residual stresses induced by cold spray with experimental validation T2 - Multidiscipline Modeling in Materials and Structures PB - Emerald Publishing Limited SP - 599 EP - 616 Y2 - 2024/04/25 ER -