Study on Thickness Thinning Ratio of the Forming Parts in Single Point Incremental Forming Process
TLDR
In this paper, a finite element model was established using ABAQUS and a formula with high accuracy to predict the deformation zone thickness was fitted with the simulation results, and the influences of process parameters, such as tool diameter, step down, feeding speed, sheet thickness, and forming angle, on thinning ratio were analyzed.Abstract:
An excessive thickness-reducing ratio of the deformation zone in single point incremental forming of the metal sheet process has an important influence on the forming limit. Prediction of the deformation zone thickness is an important approach to control the thinning ratio. Taking the 1060 aluminum as the research object, the principle of thickness deformation in the single point incremental forming process was analyzed; the finite element model was established using ABAQUS. A formula with high accuracy to predict the deformation zone thickness was fitted with the simulation results, and the influences of process parameters, such as tool diameter, step down, feeding speed, sheet thickness, and forming angle, on thinning ratio were analyzed. The accuracy of the finite element simulation was verified by experiment. A method to control the thinning rate by changing the forming trajectory was proposed. The results showed that the obtained value by using the fitted formula is closer to the experimental results than that obtained by the sine theorem. The thinning rate of the deformation zone increases with the increase of tool diameter, forming angle, and sheet thickness and decreases with the increase of step down, while the feeding speed had no significant effect on the thinning ratio. The most important factor of the thinning ratio is the forming angle, and the thinning ratio can be effectively reduced by using the forming trajectory with a uniformly distributed pressing point.read more
Citations
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Journal ArticleDOI
Recent Developments and Future Challenges in Incremental Sheet Forming of Aluminium and Aluminium Alloy Sheets
Tomasz Trzepieciński,Sherwan Mohammed Najm,Valentin Oleksik,Delia Vasilca,Imre Paniti,Marcin Szpunar +5 more
TL;DR: In this paper, the authors explored the opportunities for and limitations of using Single and Two Point Incremental Sheet Forming (ISF) techniques to form sheets from aluminium and its alloys, and provided an overview of the published results of research on the influence of the parameters of the ISF process (feed rate, tool rotational speed, step size), tool path strategy, friction conditions and process temperature on the formability and surface quality of the workpieces.
Journal ArticleDOI
Reprint of: Residual stress inclusion in the incrementally formed geometry using Fractal Geometry Based Incremental Toolpath (FGBIT)
TL;DR: In this paper, the residual stress distribution over the base region of the formed component (square cup) has been investigated in a comparison between FGBIT and conventional incremental toolpaths, where residual stresses have been measured by using nanoindentation technique.
Journal ArticleDOI
A Geometric Algorithm to Evaluate the Thickness Distribution of Stretched Sheets through Finite Element Analysis
TL;DR: A simulation model and a geometric algorithm were proposed which, on the basis of the position of the nodes of the internal and external surface of the sheet, was able to evaluate the thickness value and enables finding of the minimum value of the stretched sheet thickness.
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Incremental stamping forming with use of roller ball tool in aluminum and magnesium alloy
TL;DR: In this paper, the authors investigated correlation between the limit angle, work-hardening, stress coefficient, and thickness in two alloys, an aluminum EN AW-1100 and magnesium AZ31-B.
Journal ArticleDOI
Effect of Forming Parameters on Profile Thinning of Flexible 3D Multi-Point Stretch Bending
TL;DR: In this paper, the ABAQUS finite element simulation software is used to simulate the flexible multi-point three-dimensional stretch bending process of aluminum profiles, and the effect of process parameters on the web thickness of rectangular profile in flexible multipoint 3D stretch bending is studied by orthogonal experiment and range analysis.
References
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