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Abstract

This paper investigates the applicability of single point incremental forming to fabricate stiffening grooves in thin metallic panels. The work combines experimentation, finite element and analytical modelling to determine the required forces and the maximum allowable groove depths that can be produced without tearing. The analytical modelling is based on a framework that was previously developed by the authors and combines in-plane membrane stretching and fracture forming limits. Comparison of the results obtained by the analytical framework against experimental and finite element data proves its effectiveness to replicate the deformation mechanics of groove stiffening by single point incremental forming. Results also prove that groove stiffening by single point incremental forming is an easy and effective alternative to conventional reinforcement of thin metallic panels by welding or fastening of stringers.

Keywords

Single point incremental forming stiffening grooves analytical framework finite element method experimentation

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References

Klocke

Manufacturing processes 4 – forming. Aachen, Germany: Springer, 2013, pp.332–339.

Köhler

Rohnert

Groche

Extension of geometric limits in drawing of stringer sheets. In: Mori

Abe

Maeno

(eds) Proceedings of the 17th International Conference on Metal Forming - Metal Forming 2018, Toyohashi, Japan, 16–19 September 2018, Procedia Manufacturing, Elsevier, New York, 2018, Vol. 15, pp. 693–700.

Shamsuddin

Ab-Kadir

Osman

MH.

A comparison of milling cutting path strategies for thin-walled aluminium alloys fabrication. Int J Eng Sci 2013; 2: 1–8.

Seguy

Campa

Lacalle

LNL

, et al. Toolpath dependent stability lobes for the milling of thin-walled parts. Int J Mach Mach Mater 2009; 4: 377–392.

Bidabadi

Naeini

Safdarian

Investigation of over bending defect in the cold roll forming of U-channel section using experimental and numerical methods. J Eng Manuf 2022; 236: 1380–1392.

Fusano

Priarone

Avalle

, et al. Sheet metal plate design: a structured approach to product optimization in the presence of technological constraints. Int J Adv Manuf Technol 2011; 56: 31–45.

Lacki

Adamus

Numerical analysis of forming sheet panels with stiffening ribs. In: Oñate

Owen

DRJ

Peric

Chiumenti

(eds) Proceedings of the 13rd international conference on computational plasticity. Fundamentals and applications – COMPLAS XIII, CIMNE, Barcelona, Spain, CIMNE, 1–3 September 2015, pp.204–215.

Eguia

Mangas

Iturbe

, et al. Electromagnetic forming of longitudinal strengthening ribs in roll formed automotive profiles. In: Babusci

Daehn

Marré

Tekkaya

Weddeling

Zhang

(eds) Proceedings of the 4th international conference on high-speed forming—ICHSF 2010, Universitätsbibliothek Dortmund, Columbus, USA, 9–10 March 2010, pp. 200–207.

Slota

Kubit

Trzepiecinski

, et al. Ultimate load-carrying ability of rib-stiffened 2024-T3 and 7075-T6 aluminium alloy panels under axial compression. Materials 2021; 14: 1176.

10.

Fang

, et al. Mechanism investigation of friction-related effects in single point incremental forming using a developed oblique roller-ball tool. Int J Mach Tools Manuf 2014; 85: 14–29.

11.

Kumar

Maji

Investigations on formability of tailor laminated sheets in single point incremental forming. J Eng Manuf 2022;236: 1393–1405.

12.

Cristino

VAM

Pragana

JPM

Bragança

IMF

, et al. Hybrid manufacturing of stiffening grooves in additive deposited thin parts. J Manuf Mater Process 2021; 5: 140.

13.

ASTM E8/E8 M:2016. Standard test methods for tension testing of metallic materials. West Conshohocken, PA: ASTM International.

14.

Silva

Nielsen

Bay

, et al. Failure mechanisms in single-point incremental forming of metals. Int J Adv Manuf Technol 2011; 56: 893–903.

15.

Martins

PAF

Barata Marques

MJM

. Plane strain rigid plastic finite element formulation for sheet metal forming processes. J Eng Manuf 1993; 207: 167–171.

16.

Marciniak

Duncan

JL.

The mechanics of sheet metal forming. 1st ed. Auckland, New Zealand: Edward Arnold, 1992, pp.100–113.

17.

Chang

Chen

Analytical modeling and experimental validation of the forming force in several typical incremental sheet forming processes. Int J Mach Tools Manuf 2019; 140: 62–76.

Groove stiffening of sheets by single point incremental forming

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