PT Journal
AU Routray, A
   Singh, R
   Cepova, L
   Sandeep, V
   Swarna, B
   Muniyandy, E
   Bansod, A
   Krpec, P
TI Design and Life of a Ball Valve as per the ASME BPVC Section VIII by the Elastic Stress Analysis Method
SO Manufacturing Technology Journal
PY 2026
BP 78
EP 87
VL 26
IS 1
DI 10.21062/mft.2026.001
DE Ball Valve; Fatigue life; ASME; BPVC; ASME elliptical mean stress theory
AB The fatigue assessment of a Class 300 valve body with a bore diameter of 450 mm under vari-ous pressures is discussed using Section VIII, Division 2 of the ASME BPVC. Finite element analysis (FEA) results are compared to fatigue test results, and correlations are obtained. The material used for the valve is A216 WCB, which is widely used for making API ball valves. Elastic stress analysis was used to study the influence of various parameters on the results. This method is widely accepted and is used for static components. The body and flange de-signs were performed in accordance with ASME and API standards. Various pressure loads were applied to the inner surface of the valve body, ranging from 4 MPa to 6 MPa. The defor-mation, equivalent stress and stress intensity over the critical areas were analyzed using AN-SYS Workbench. As the pressure increases, the maximum compressive stress over the valve body surface also increases. However, the design of the valve for a pressure of 5.1 MPa (for a Class 300 valve) remained within the safe limit. Increasing the pressure beyond 5.1 MPa also indicates a safe design; the valve can withstand pressure up to 6 MPa (beyond the design pres-sure).
ER