Article ID Journal Published Year Pages File Type
774400 Engineering Failure Analysis 2009 9 Pages PDF
Abstract

The causes of recurrent failures of the stem of a cone valve in a 2100 bar internal pressure polymer reactor were analyzed. The valve generates fast but short drops of pressure within the reactor, as the stem is axially moved by a hydraulic control system. Most of the time the valve modulates pressure by positioning the stem at the 10% of its maximal displacement. Cracks in the quenched and tempered DIN 1.2343 valve stems propagated symmetrically from the outside, by alternative bending fatigue. Crack initiation was due to plastic deformation of the stem as supported against the cage, from a combined stress state caused by stem vibrations and fluid pressure. The plastic deformation and the failure mode point to flow induced vibrations on the stem. Modifications in valve design are proposed to diminish flow induced vibration in the stem.

Related Topics
Physical Sciences and Engineering Engineering Industrial and Manufacturing Engineering
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