Archive/Build-Up Mechanisms and Performance of Dynamic Push-the-Bit Rotary Steerable Drilling Tools
Build-Up Mechanisms and Performance of Dynamic Push-the-Bit Rotary Steerable Drilling Tools
Chuanming Xi, Huaigang Hu, Desheng Wu et al.
July 2, 2026
en

Abstract

Rotary steerable drilling technology is fundamentally aimed at achieving precise wellbore trajectory control. As a representative directional tool, a dynamic push-the-bit RSS generates steering force during rotary drilling through the interaction between its extendable steering pads and the borehole wall, and it is distinguished from static push-the-bit RSS by the rotational friction that develops at the pad–wall interface. To further clarify the influence of friction on the resultant steering force and the build-up rate, this study develops a steering-force optimization model that explicitly incorporates tangential friction, validates the model, and then conducts numerical simulations to examine how PDC bit design parameters and formation properties affect the build-up rate. The results indicate that the friction-aware optimization model can achieve a higher build-up rate. Quantitatively, relative to the friction-free allocation model that is commonly used as the baseline in push-the-bit BUR prediction, the friction-aware formulation increases the final lateral displacement from approximately 28.4 to 30.6 mm in the analytical comparison (+7.7%) and from approximately 24.3 to 26.9 mm in the full-scale finite-element comparison (+10.7%) over the same steering-force action time. In soft formations with a low internal friction angle, a bit design combining a moderate gauge-protection dimension, an appropriate inner cone angle, and a large crown radius can effectively enhance lateral cutting and steering-force transmission, thereby improving build capability and trajectory stability. These findings provide a theoretical basis for improving build-rate efficiency in push-the-bit rotary steerable drilling systems.

Keywords

build-upmechanismsperformancedynamicpush-the-bitrotarysteerabledrillingtoolsprocessestechnologyfundamentallyaimedachievingprecisewellboretrajectorycontrolrepresentativedirectionaltoolgeneratessteeringforce
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