TITLE:
Design Optimization of Stress Relief Grooves in Lever Guide of Pressure Vessel for Food Processing
AUTHORS:
Yuichi Otsuka, Hamirdin Bin Baron, Yoshiharu Mutoh
KEYWORDS:
Stress Relief Groove; Stress Concentration Factor; Finite Element Analysis; Pressure Vessel
JOURNAL NAME:
Open Journal of Safety Science and Technology,
Vol.2 No.1,
March
28,
2012
ABSTRACT: A stress relief groove is introduced in the R area and the stress is analyzed using a finite element method (FEM). Then the relief of the stress concentration in the vicinity of the pressure vessel is measured based on these results. When designing a stress relief groove, the lever must overhang the groove (L > 0). By introducing a stress relief groove to the R area, maximum stress on the lever guide can be reduced by 10%. This enables the reduction of the maximum stress (Mises stress) to be less than the fatigue strength. Furthermore, the location where maximum stress occurs on the lever guide changes in accordance with the clearance between the lever and lever guide. This identified the need to take into account the deviation factor such as design clearance in modeling process.