2021
DOI: 10.3390/jmmp5020060
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Simulation Based Prediction of Compliance Induced Shape Deviations in Internal Traverse Grinding

Abstract: Internal traverse grinding (ITG) using electroplated cBN tools in high-speed grinding conditions is a highly efficient manufacturing process for bore machining in a single axial stroke. However, process control is difficult. Due to the axial direction of feed, changes in process normal force and thus radial deflection of the tool and workpiece spindle system, lead to deviations in the workpiece contour along the length of the bore, especially at tool exit. Simulations including this effect could provide a tool… Show more

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Cited by 3 publications
(5 citation statements)
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“…K is dependent on whether the section is in front (10) or behind (11) the load application point. First, every isostatic case, produced by every support and force, was solved, considering q, R F (reaction of the steady rest in the second diameter), R G (reaction of the steady rest in the third diameter), and R H (reaction of the steady rest in the fourth diameter).…”
Section: šø ā‹… š¼[š‘–] ā‹… š‘¦mentioning
confidence: 99%
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“…K is dependent on whether the section is in front (10) or behind (11) the load application point. First, every isostatic case, produced by every support and force, was solved, considering q, R F (reaction of the steady rest in the second diameter), R G (reaction of the steady rest in the third diameter), and R H (reaction of the steady rest in the fourth diameter).…”
Section: šø ā‹… š¼[š‘–] ā‹… š‘¦mentioning
confidence: 99%
“…Some research has been conducted to clarify and predict the deformation behavior of slender parts during the traverse grinding process, based on the radial force induced by the wheel pushing the workpiece, both in external [7,10] and internal [11] grinding processes. Having presented the prediction model, various solutions have been described to minimize the predicted shape error.…”
Section: Introductionmentioning
confidence: 99%
“…In general, such kinematic models aim to approximate the interaction of each individual grain on the grinding wheel with the workpiece material but rely on simplified models for the interactions under consideration due to the large amount of grain engagements. We recently proposed a multi-scale simulation framework capable of simulating internal traverse grinding under consideration of elastic deflection between grinding wheel and workpiece, for which a model for the single-grain process forces was developed based on two-dimensional finite element cutting simulations [1]. The process forces could be predicted in good agreement with experimental observations, where the only experimental calibration was performed for the elastic compliance of the machining system.…”
Section: Introductionmentioning
confidence: 99%
“…A Lagrangian Finite Element scheme, based on the model presented in [5], was applied for the single-grain cutting simulations in [1]. Due to the large deformations during chip formation, a remeshing scheme is necessary for the simulations, which adds computational cost and introduces artificial diffusion of the solution variables.…”
Section: Introductionmentioning
confidence: 99%
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