Hypoplastic particle finite element model for cutting tool-soil interaction simulations: Numerical analysis and experimental validation: Fid-Bau Portal

Hypoplastic particle finite element model for cutting tool-soil interaction simulations: Numerical analysis and experimental validation

Abdiel Ramon Leon Bal / Ulrich Hoppe / Thai Son Dang / Klaus Hackl / Günther Meschke

Abstract

This study presents numerical and experimental models for the analysis of the excavation of soft soils by means of a cutting tool. The computational model is constructed using an Updated Lagrangean (UL) velocity-based Finite Element approach. A hypoplastic formulation is employed to describe the constitutive behavior of soft soils. Large displacements and deformations of the ground resulting from the cutting tool-soil interaction are handled by means of the Particle Finite Element method, characterized by a global re-meshing strategy and a boundary identification procedure called α-shape technique. The capabilities and performance of the proposed model are demonstrated through comparative analyses between experiments and simulations of cutting tool-soft soil interactions. The experiments are performed using an excavation device at Ruhr-Universität Bochum (RUB), Germany. The main details concerning the setup and calibration and evolution of the measured draft forces are discussed. Selected computational results characterizing the cutting tool-soft soil interaction including the topology of the free surface, void ratio distribution ahead of the tool, spatio-temporal evolution of the reaction forces and abrasive wear behavior are evaluated. Keywords: Velocity-based finite elements formulation, Hypoplasticity, Large deformations, Particle finite elements, Cutting tool-soil interaction, Excavation experiments

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