Mohit Law scite author profile

Dynamic response of a machine tool structure varies along the tool path depending on the changes in its structural configurations. The productivity of the machine tool varies as a function of its frequency response function (FRF) which determines its chatter stability and productivity. This paper presents a computationally efficient reduced order model to obtain the FRF at the tool center point of a machine tool at any desired position within its work volume. The machine tool is represented by its position invariant substructures. These substructures are assembled at the contacting inteifaces by using novel adaptations of constraint formulations. As the tool moves to a new position, these constraint equations are updated to predict the FRFs efficiently without having to use computationally costly full order finite element or modal models. To facilitate dynamic substructuring, an improved variant of standard component mode synthesis method is developed which automates reduced order determination by retaining only the important modes of the subsystems. Position-dependent dynamic behavior and chatter stability charts are successfully simulated for a virtual three axis milling machine, using the substructtirally synthesized reduced order model. Stability lobes obtained using the reduced order model agree well with the corresponding full-order system.

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Position-dependent dynamics and stability of serial-parallel kinematic machines

Law

Ihlenfeldt

Wabner

et al. 2013

CIRP Annals

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Validation of a hardware-in-the-loop simulator for investigating and actively damping regenerative chatter in orthogonal cutting

Sahu

Vashisht

Wahi

et al. 2020

CIRP Journal of Manufacturing Science and Technology

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Emulating bistabilities in turning to devise gain tuning strategies to actively damp them using a hardware-in-the-loop simulator

Sahu

Jain

Wahi

et al. 2021

CIRP Journal of Manufacturing Science and Technology

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Mohit Law

Rapid evaluation and optimization of machine tools with position-dependent stability

Position-Dependent Multibody Dynamic Modeling of Machine Tools Based on Improved Reduced Order Models

Position-dependent dynamics and stability of serial-parallel kinematic machines

Validation of a hardware-in-the-loop simulator for investigating and actively damping regenerative chatter in orthogonal cutting

Emulating bistabilities in turning to devise gain tuning strategies to actively damp them using a hardware-in-the-loop simulator

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