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March 2, 2026Open Access

Workflow for real-time simulation-based fatigue assessment in mobile machinery

Key Points

To propose a workflow for real-time simulation-based fatigue assessment in mobile machinery.
Developed a workflow utilizing digital twin technology for fatigue assessments.
Adapted existing methods for real-time data integration.
Evaluated the applicability of simulations for practical implementation.
Proposed workflow addresses real-time simulation challenges.
Highlights potential for integrating sensor data into fatigue assessments.
Demonstrates how high-strength steels impact fatigue evaluation in mobile machinery.

Abstract

Heavy machinery components are prone to fatigue-related damage, and the trend of using high-strength steels in structural design makes fatigue assessment increasingly important. For mobile machinery, simulation-based fatigue assessment is traditionally carried out during the design stage. Digital twin technology, which adds real-time sensor data to simulations, unlocks an opportunity to integrate fatigue assessment results into the control system, but it also introduces new challenges because of the real-time requirement for underlying simulations and analyses. In this paper, a workflow is proposed for real-time simulation-based fatigue assessment specifically adapted to heavy mobile machinery, and applicability of methods available for practical implementation is discussed.

Workflow for real-time simulation-based fatigue assessment in mobile machinery

Key Points

Abstract

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