Untersuchungen zur Kontaktspannung von ungestuften, gerundeten D‐Ringen unter gleichmäßiger Pressung und Innendruck mittels spannungsoptischer, experimenteller Hybridmethoden

The stresses that occur in an un‐stepped rounded D‐ring loaded with various internal pressures and compressed to a 20% squeeze rate are analyzed using photoelastic experimental hybrid method. The analysis shows that the contact stresses on both the upper and front sides of the D‐ring increase as the applied internal pressure increases with the magnitudes of σ X and σ Y being considerably higher than those of τ XY . At a pressure of zero and 20% compression, the isochromatic fringe patterns of the un‐stepped D‐ring are almost symmetrical. However, as the internal pressure applied to the D‐ring increases the isochromatic fringe patterns shift and curve smoothly towards the extrusion gap making the upper and front sides to be more stressed than the lower side. At a pressure of 1.96 MPa and above, the contact stresses on the upper side were found to be almost constant along the contact length. By supplying a fillet radius of 2.1 mm at the corners of the un‐stepped D‐ring the high stresses at the corners were reduced by up to 45%. The results from the study further demonstrated that the un‐stepped rounded D‐ring with a ratio of r/d = 0.3 to be can be an alternative choice to the O‐ring for sealing applications. Interestingly, the pressures that the un‐stepped D‐ring can withstand before extrusion are higher than those of an O‐ring.