The Influence of Toolpath Strategy on Geometric Accuracy in Incremental Forming

Elif Malyer

doi:10.4028/www.scientific.net/KEM.554-557.1351

Paper Titles

Evaluating Material Constitutive Equations for the Simulation of Incremental Sheet Forming Applied to Form Thermoplastic Materials
p.1312

Reduction of Springback in Hat Channel with High-Strength Steel Sheetby Stroke Returning Deep Drawing
p.1320

Investigation on Effect of Slide Motion Control on Stamping of High Strength Steel Sheets
p.1331

Material Property Evolution in Incremental Sheet Forming - A Review and Comparison
p.1338

The Influence of Toolpath Strategy on Geometric Accuracy in Incremental Forming
p.1351

Incremental Sheet Metal Forming with Direct Resistance Heating Using Two Moving Tools
p.1362

Friction-Spinning – an Innovative Incremental Forming Process for the Manufacturing of Functional Graded Parts
p.1368

Comparison between an Advanced Numerical Simulation of Sheet Incremental Forming Using Adaptive Remeshing and Experimental Results
p.1375

Control System Algorithm for the Prediction of Sprinback in Air Bending
p.1382

HomeKey Engineering MaterialsKey Engineering Materials Vols. 554-557The Influence of Toolpath Strategy on Geometric...

The Influence of Toolpath Strategy on Geometric Accuracy in Incremental Forming

Abstract:

Incremental sheet metal forming is a new process to manufacture sheet metal parts and it is becoming a remarkable technology for fast prototyping and small lot production because of the advantages of this technology such as process flexibility, product independent tooling and higher formability. On the other hand, limited maximum drawing angle, relatively coarse surface roughness, low geometrical accuracy and long forming time are common disadvantages of the process. Furthermore, it is affected by process parameters which are tool diameter, forming velocity, spindle speed, forming geometry and depth, etc. Toolpath strategy which is used to form sheet metal by CNC machine has a key role among these parameters. The present study has been undertaken in order to investigate the suitable toolpath strategy which is developed for metal cutting by commercial CAD/CAM software to increase geometrical accuracy and decrease thinning and forming time. For the intended purpose, seven different toolpath strategies which are rough and finish strategies were used to form a truncated frustum by using one millimeter thick S235JR steel alloy. The effect of each strategy on the surface roughness, geometrical accuracy and thinning distribution of formed product was studied by measuring thickness, drawing angle and depth of formed parts. Therefore, formed parts scanned by 3D laser scanner and STL files of parts were generated then STL files were converted into CAD file. CAD data of parts was used for measurements. The measurements showed that not only forming movements but also transition movements along the tool path affected the geometric accuracy and thinning distribution, surface roughness and forming time of formed parts. On the other hand it was observed that rough strategies were given good results as finish strategies and tool paths generated by CAM software need to be editing for better geometric accuracy, thinning, forming time and surface quality.

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Periodical:

Key Engineering Materials (Volumes 554-557)

Pages:

1351-1361

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.554-557.1351

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Online since:

June 2013

Authors:

Elif Malyer

Keywords:

CAD/CAM, Incremental Sheet Forming (ISF), Sheet Metal Forming, Tool Path

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References

[1] H. Iseki and T. Naganawa, Vertical wall surface forming of rectangular shell using multistage incremental forming with spherical and cylindrical rollers, Journal of Materials Processing Technology 130–131 (2002) 675–679