Analysis of the States of Deformation and Stress in the Surface Layer of the Product after the Burnishing Cold Rolling Operation

Leon Kukielka; Michal Szczesniak; Radoslaw Patyk; Agnieszka Kułakowska; Krzysztof Kukielka; Sylwia Patyk; Katarzyna Gotowala; Dražan Kozak

doi:10.4028/www.scientific.net/MSF.862.278

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Computer Simulation and Numerical Analysis of the Tailored Blanks Drawing
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Study the Possibility of Controlling the Magnitude and Distribution of Residual Stress in the Surface Layer of the Product after the Process Double Duplex Burnishing
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Experimental and Numerical Investigation of the Influence of Cutting Speed and Feed Rate on Forces in Turning of Steel
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Analysis of the States of Deformation and Stress in the Surface Layer of the Product after the Burnishing Cold Rolling Operation
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Finite Element Simulation of Physical Phenomena in Real Conditions of a Single Grain Cutting Process
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Determining of Shear Modulus for the Samples Circular and Hollow Circular Cross-Section
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Modeling the Failure Tree Analysis for Safety-Critical Systems in the Production of Hazardous Materials
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Application of 3D Printing for Specific Tools
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HomeMaterials Science ForumMaterials Science Forum Vol. 862Analysis of the States of Deformation and Stress...

Analysis of the States of Deformation and Stress in the Surface Layer of the Product after the Burnishing Cold Rolling Operation

Abstract:

The article presents the results of computer modelling and numerical simulations the deformation and stresses occurring in the surface layer of the product after the burnishing cold rolling operation. Technological processes were considered as a geometrical and physical boundary and initial value problem, with unknown boundary conditions in the contact zone. An incremental model of the contact problem between movable rigid or elastic body (tool) and elastic/visco-plastic body (object) in updated Lagrange formulation, for spatial states (3D) was considered. The incremental functional of the total energy and variational, non-linear equation of motion and deformation of object on the typical step time were derived. This equation has been discretized by finite element method, and the system of discrete equations of motion of objects was received. For solution of these equations the explicit methods was used. The applications were developed in the ANSYS/LS-Dyna system, which makes possible a complex time analysis of the states of displacements, strains and stresses, in the workpieces in fabrication processes. Application of this method was showed for examples the modelling and the analysis of the asperities with apex angles θ = 85°, 120° and 156°. The Bielajew point using finite elements methodology was indicated. The simulation results were verified experimentally.

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Periodical:

Materials Science Forum (Volume 862)

Pages:

278-287

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.862.278

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Online since:

August 2016

Authors:

Leon Kukielka*, Michal Szczesniak, Radoslaw Patyk, Agnieszka Kułakowska, Krzysztof Kukielka, Sylwia Patyk, Katarzyna Gotowala, Dražan Kozak

Keywords:

ANSYS System, Bielajew Point, Discretized Model, Displacement State, Dynamic Explicit Method, Metal Forming, Plastic Deformation, Regular Asperities, Strain, Stress

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References

[1] L. Kukielka, Theoretical and experimental foundations of surface roller burnishing with electrocontact heating, ed., Technical University of Koszalin, 47, (1994).