Abstract:A stranded wires helical spring is formed of a multilayer and coaxial strand of several wires twisted together with the same direction of spiral.Compared with the conventional single wire spring,the stranded wires helical spring has the notable predominance in strength,damping and vibration reduction,which is usually used in aircraft engines,automatic weapons,etc.However,due to its complicated structure,the precise computation of its strength and rigidity need be a correct mathematical model,which then will be imported to finite element analysis software for solutions.Equations on solving geometric parameters,such as extal diameters of strands and screw pitches of wires,are put forward in the paper.It also proposes a novel methodology on solving geometric parameters and establishing entity models of the stranded wires helical spring,which provides foundation of computing mechanical parameters by FEA.Then mathematical models on the centre line of the strand and the surface curve of each wire,after closing two ends in a spring,are proposed.Finally,geometric parameters are solved in a case study,and a 3D entity model of a spring with 3 layers and 16 wires is established,which has validated the accuracy of the proposed methodology and the 3D entity mathematical model.The method provides a new way to design stranded wire helical spring.