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Evaluation of the Adaptive Behavior of a Shell-Type Elastic Element of a Drilling Shock Absorber with Increasing External Load Amplitude

Andrii Velychkovych, V. V. Mykhailiuk, Andriy Andrusyak

2025Vibration9 citationsDOIOpen Access PDF

Abstract

Vibration loads during deep drilling are one of the main causes of reduced service life of drilling tools and emergency failure of downhole motors. This work investigates the adaptive operation of an original elastic element based on an open cylindrical shell used as part of a drilling shock absorber. The vibration protection device contains an adjustable radial clearance between the load-bearing shell and the rigid housing, which provides the effect of structural nonlinearity. This allows effective combination of two operating modes of the drilling shock absorber: normal mode, when the clearance does not close and the elastic element operates with increased compliance; and emergency mode, when the clearance closes and gradual load redistribution and increase in device stiffness occur. A nonconservative problem concerning the contact interaction of an elastic filler with a coaxially installed shaft and an open shell is formulated, and as the load increases, contact between the shell and the housing, installed with a radial clearance, is taken into account. Numerical finite element modeling is performed considering dry friction in contact pairs. The distributions of radial displacements, contact stresses, and equivalent stresses are examined, and deformation diagrams are presented for two loading modes. The influence of different cycle asymmetry coefficients on the formation of hysteresis loops and energy dissipation is analyzed. It is shown that with increasing load, clearance closure begins from local sectors and gradually covers almost the entire outer surface of the shell. This results in deconcentration of contact pressure between the shell and housing and reduction of peak concentrations of equivalent stresses in the open shell. The results confirm the effectiveness of the adaptive approach to designing shell shock absorbers capable of reliably withstanding emergency overloads, which is important for deep drilling where the exact range of external impacts is difficult to predict.

Topics & Concepts

Shell (structure)Structural engineeringFinite element methodMechanicsMaterials scienceShock absorberDrillingStiffnessVibrationShock (circulatory)DissipationAmplitudeDeformation (meteorology)Elasticity (physics)Deep hole drillingContact areaService lifeWork (physics)Shock waveContact mechanicsEngineeringDeflection (physics)HysteresisTest benchPressure vesselEnhanced Data Rates for GSM EvolutionAsymmetryGeotechnical and Geomechanical EngineeringDrilling and Well EngineeringEngineering Diagnostics and Reliability
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