09199 Premature Failure of Riser Tensioner Piston Rods Exposed to Offshore Splash Zone Operation – Status and Review of Critical Multi-Degradation Factors

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Product Number: 51300-09199-SG

ISBN: 09199 2009 CP

Author: Christian B. von der Ohe, Roy Johnsen and Nuria Espallargas

Publication Date: 2009

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This paper reviews the experience, development and degradation issues of direct-acting riser tensioning (N-line) cylinder piston rod surfaces.

A hydraulic cylinder used in a direct-acting riser tensioning system on board a deepwater drilling vessel operates in the splash zone, thus working in an extremely harsh environment. The piston rods are exposed to a corrosive environment in combination with continuous wear action and high static and cyclic mechanical loading. Operational experiences show that the coatings on these piston rods have dramatically shorter life than expected.

The goal is to improve the service life of these piston rods. This will be achieved by establishing fundamental knowledge about the combined effects of corrosion, wear and fatigue degradation of selected tribological surfaces such as piston rod surfaces.

The experience survey information shows that plasma sprayed ceramic coatings for the N-line piston rod application are being degraded to total surface failure in less than one year of operation, mainly due to substrate corrosion. The N-line piston rods with HVOF metallic coatings on Super Duplex stainless steel substrate typically fail within 2-3 years of operation. Observations suggest that it is the effects of cyclic mechanical loading, possibly enhanced by wear induced failure mechanisms which are the primary cause of failure and not so much corrosion on these piston rods. The experience input data indicate how operational factors and properties of material combinations affect the total degradation. Previous research and qualification on corrosion and wear resistant coatings have focused on standardized test methods, mainly verifying the ability to withstand single degradation mechanisms such as corrosion, wear and mechanical induced failure alone.

Keywords: Direct acting riser tensioning, N-line, offshore operational experience, piston rods, multidegradation, tribo-corrosion, corrosion-wear-fatigue, coatings