Ductile fracture characterization of DP1000 sheet steel: Benchmarking of specimen geometries

Abstract

The experimental characterization of ductile fracture in Advanced High Strength Steels (AHSS) is influenced by the choice of specimen geometry used to represent specific stress states. In this work, a comparative experimental assessment of different specimen geometries designed to represent uniaxial tension and shear-dominated stress states in DP1000 is presented. A Smiley shear specimen and two mini-shear specimens with 0 mm (‘MiniShear0’) and −1 mm (‘MiniShear-1’) offsets were used to represent shear loading conditions. For uniaxial tension, conventional Dogbone specimens and Central Hole specimens manufactured through laser cutting and electro-discharge machining were tested. Digital Image Correlation (DIC) was employed to analyze strain-field evolution, strain-path stability, and deformation proportionality throughout loading up to the assumed fracture initiation point. The results highlight significant differences between specimen geometries in terms of stress-state stability. Among the uniaxial tension stress state, the Dogbone specimen exhibited the most stable and proportional strain-path evolution, closely approaching ideal uniaxial tension conditions. For shear-dominated loading, while all shear specimens converged toward low stress triaxiality, the mini-shear geometries showed the most homogeneous strain-field behavior.

Keywords

Damage initiation criteria digital image correlation fracture initiation pure shear stress state uniaxial tension

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References

Gupta

Trivedi

Gupta

, et al. Metal matrix composites for sustainable products: a review on current development. Proce Inst Mech Eng, L: J Mater: Des Appl 2024; 238: 1827–1864.

Pereira

Peixinho

Costa

, et al. Parametric study of local laser heat treatment technology on multi forming of advanced-high strength steel (AHSS) part with complex shape. Int J Lightweig Mater Manuf 2024; 7: 248–259.

Tekkaya

Bouchard

P-O

Bruschi

, et al. Damage in metal forming. CIRP Ann 2020; 69: 600–623.

Mohammed

Chakherlou

Khoshravan Azar

. Fatigue crack initiation life prediction using different plasticity models in cold expanded AL-alloy plates utilized in double shear lap joints. Proce Inst Mech Eng, L: J Mater: Des Appl 2024; 238: 542–561.

Cao

. Models for ductile damage and fracture prediction in cold bulk metal forming processes: a review. Int J Mater Form 2017; 10: 139–171.

Cho

Lee

Yee

J-J

, et al. Modeling of ductile fracture for SS275 structural steel sheets. Appl Sci 2021; 11: 5392.

Souza

GSC

Farahani

Guedes

, et al. On the experimental determination and prediction of damage evolution in composites via cyclic testing. Proce Inst Mech Eng, L: J Mater: Des Appl 2025; 239: 1744–1762.

Pereira

Peixinho

Costa

. A review of sheet metal forming evaluation of advanced high-strength steels (AHSS). Metals (Basel) 2024; 14: 394.

Iosipescu

. New accurate procedure for single shear testing of metals. J Mater 1967; 2: 537–566.

10.

D30 Committee. Test method for shear properties of composite materials by the V-notched beam method. ASTM International. 2021; 15. DOI: 10.1520/D5379_D5379M-19E01.

11.

Bao

Wierzbicki

. On fracture locus in the equivalent strain and stress triaxiality space. Int J Mech Sci 2004; 46: 81–98.

12.

Shouler

Allwood

. Design and use of a novel sample design for formability testing in pure shear. J Mater Process Technol 2010; 210: 1304–1313.

13.

Dunand

Mohr

. Optimized butterfly specimen for the fracture testing of sheet materials under combined normal and shear loading. Eng Fract Mech 2011; 78: 2919–2934.

14.

Khameneh

Abedini

Butcher

. Experimental and numerical fracture characterization of DP1180 steel in combined simple shear and uniaxial tension. Metals (Basel) 2023; 13: 1305.

15.

Peirs

Verleysen

Degrieck

. Novel technique for static and dynamic shear testing of Ti6Al4 V sheet. Exp Mech 2012; 52: 729–741.

16.

Yin

Soyarslan

Isik

, et al. A grooved in-plane torsion test for the investigation of shear fracture in sheet materials. Int J Solids Struct 2015; 66: 121–132.

17.

Grolleau

Roth

Mohr

. Characterizing plasticity and fracture of sheet metal through a novel in-plane torsion experiment. IOP Conf Ser: Mater Sci Eng 2019; 651: 012101.

18.

Roth

Mohr

. Ductile fracture experiments with locally proportional loading histories. Int J Plast 2016; 79: 328–354.

19.

Behrens

B-A

Rosenbusch

Wester

, et al. Comparison of different testing approaches to describe the fracture behaviour of AHSS sheets using experimental and numerical investigations. IOP Conf Ser: Mater Sci Eng 2021; 1157: 012059.

20.

Pereira

Peixinho

Costa

. Direct experimental calibration of Hosford–Coulomb and modified Mohr–Coulomb damage criteria in AHSS using digital image correlation. Metals (Basel) 2025; 15: 1238.

21.

International Digital Image Correlation Society, Jones

Iadicola

, et al. A Good Practices Guide for Digital Image Correlation. 1st ed. International Digital Image Correlation Society. Epub ahead of print 8 October 2018. DOI: 10.32720/idics/gpg.ed1.

22.

Khameneh

Abedini

Butcher

. Lengthscale effects in optical strain measurement for fracture characterization in simple shear. Int J Fract 2021; 232: 153–180.

23.

Rickhey

Hong

. Stress triaxiality in anisotropic metal sheets—definition and experimental acquisition for numerical damage prediction. Materials (Basel) 2022; 15: 3738.

24.

Winter

Liao

Ramanathan

, et al. How non-conventional machining affects the surface integrity and magnetic properties of non-oriented electrical steel. Mater Des 2021; 210: 110051.

25.

Holmberg

Berglund

Wretland

, et al. Evaluation of surface integrity after high energy machining with EDM, laser beam machining and abrasive water jet machining of alloy 718. Int J Adv Manuf Technol 2019; 100: 1575–1591.

26.

Stoklásek

Mizera

Manas

, et al. The thermal effect of unconventional cutting technologies on steel DIN 1.7102. MSF 2020; 994: 78–87.

27.

Roth

Mohr

. Effect of strain rate on ductile fracture initiation in advanced high strength steel sheets: experiments and modeling. Int J Plast 2014; 56: 19–44.

28.

Pack

Mohr

. Combined necking & fracture model to predict ductile failure with shell finite elements. Eng Fract Mech 2017; 182: 32–51.

29.

Mohr

Marcadet

. Micromechanically-motivated phenomenological hosford–Coulomb model for predicting ductile fracture initiation at low stress triaxialities. Int J Solids Struct 2015; 67–68: 40–55.

30.

Erice

Roth

Mohr

. Stress-state and strain-rate dependent ductile fracture of dual and complex phase steel. Mech Mater 2018; 116: 11–32.

31.

Roth

Morgeneyer

Cheng

, et al. Ductile damage mechanism under shear-dominated loading: in-situ tomography experiments on dual phase steel and localization analysis. Int J Plast 2018; 109: 169–192.