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Experimental Mechanics

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15.10.2019 | Research paper

Mixed-Mode Deformation and Failure of a Magnesium Sheet Quantified using a Modified Arcan Fixture

verfasst von: D. Steglich

Erschienen in: Experimental Mechanics | Ausgabe 1/2020

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Abstract

The anisotropic plastic deformation and the failure behaviour of a rolled magnesium sheet is quantified by means of a modified Arcan loading device. Combined mode I/II loadings are applied at room temperature. Anti-buckling guides enforce parallel motion of the fixture. The evolution of local strain fields during loading is analysed by means of digital image correlation. Two target functions are constructed from each test: one including the kinetic, another describing the kinematical response. The failure strain as a function of the loading direction and sheet orientation is quantified. It is shown that the failure mechanism is independent of the loading angle. Guidelines for future constitutive model developments are provided in terms of the exploration of the samples motion, the uniformity of strain fields and their respective significance.

Vorheriger Artikel An Investigation of the Enhanced Fatigue Performance of Low-porosity Auxetic Metamaterials

Nächster Artikel Experimental Evaluation of Vertebral Strain in Lumbar Total Disc Replacement

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Arcan M, Hashin Z, Voloshin A (1978) A method to produce uniform plane-stress states with applications to fiber-reinforced materials. Exp Mech 18:141–146CrossRef

Voloshin A, Arcan M (1980) Failure of unidirectional fiber-reinforced materials—New methodology and results. Exp Mech 20:280–284CrossRef

Wycherley GW, Mestan SA, Grabovac I (1990) Method for uniform shear stress-strain analysis of adhesives. J Test Eval 18:203–209CrossRef

Joannès S, Renard J, Gantchenko V (2010) The role of talc particles in a structural adhesive submitted to fatigue loadings. Int J Fatigue 32:66–71CrossRef

Xavier J, Oliveira M, Morais J, Pinto T (2009) Measurement of the shear properties of clear wood by the Arcan test. Holzforschung. 63:217–225CrossRef

Patronelli L, Markiewicz E, Langrand B, Deletombe E, Drazétic P (1999) Analysis of riveted joint failure under mixed mode loading. Eur J Mech Environ Eng 44:223–228

Wang P, Pierron F, Thomsen OT (2013) Identification of Material Parameters of PVC Foams using Digital Image Correlation and the Virtual Fields Method. Exp Mech 53:1001–1015CrossRef

Mahgoub E, Deng X, Sutton MA (2003) Three-dimensional stress and deformation fields around flat and slant cracks under remote Mode I loading conditions. Eng Fract Mech 70:2527–2542CrossRef

Gruben G, Fagerholt E, Hopperstad OS, Børvik T, Langseth M (2014) Numerical Simulation of Ductile Fracture in Modified Arcan Test. Procedia Mater Sci 3:661–666CrossRef

10.

Deng X, Newman JC (1999) A study of some issues in stable tearing crack growth simulations. Eng Fract Mech 64:291–304CrossRef

11.

Sutton MA, Boone ML, Ma F, Helm JD (2000) A combined modeling-experimental study of the crack opening displacement fracture criterion for characterization of stable crack growth under mixed mode I/II loading in thin sheet materials. Eng Fract Mech 66:171–185CrossRef

12.

Oskui AE, Soltani N (2018) Characterization of elastic-plastic fracture toughness of AM60 Mg alloy under mixed-mode loading conditions. Eng Fract Mech 204:388–403CrossRef

13.

Pöhlandt K, Tekkaya AE (1985) Torsion testing – plastic deformation to high strains and strain rates. Mater Sci Technol 1:972–977CrossRef

14.

Peirs J, Verleysen P, Degrieck J (2012) Novel Technique for Static and Dynamic Shear Testing of Ti6Al4V Sheet. Exp Mech 52:729–741CrossRef

15.

Dunand M, Mohr D (2011) Optimized butterfly specimen for the fracture testing of sheet materials under combined normal and shear loading. Eng Fract Mech 78:2919–2934CrossRef

16.

Abedini A, Butcher C, Worswick MJ (2017) Fracture Characterization of Rolled Sheet Alloys in Shear Loading: Studies of Specimen Geometry, Anisotropy, and Rate Sensitivity. Exp Mech 57:75–88CrossRef

17.

Mohr D, Doyoyo M (2002) Analysis of the arcan apparatus in the clamped configuration. J Compos Mater 36:2583–2593CrossRef

18.

Agnew SR. Plastic anisotropy of magnesium alloy AZ31B sheet. In: Kaplan HI, editor. Magnesium Technology 2002. Seattle 2002

19.

Kelley EW, Hosford WF (1968) The deformation characteristics of textured magnesium. Trans Metall Soc AIME 242:654–661

20.

Hosford WF, Allen TJ (1973) Twinning and directional slip as a cause for a strength differential effect. Metall Trans A 4:1424–1425CrossRef

21.

Abedini A, Butcher C, Nemcko MJ, Kurukuri S, Worswick MJ (2017) Constitutive characterization of a rare-earth magnesium alloy sheet (ZEK100-O) in shear loading: Studies of anisotropy and rate sensitivity. Int J Mech Sci 128–129:54–69CrossRef

22.

Bohlen J, Nuernberg MR, Senn JW, Letzig D, Agnew SR (2007) The texture and anisotropy of magnesium–zinc–rare earth alloy sheets. Acta Mater 55:2101–2112CrossRef

23.

Andar MO, Kuwabara T, Steglich D (2012) Material modeling of AZ31 Mg sheet considering variation of r-values and asymmetry of the yield locus. Mater Sci Eng A 549:82–92CrossRef

24.

Ghaffari Tari D, Worswick MJ, Ali U, Gharghouri MA (2014) Mechanical response of AZ31B magnesium alloy: Experimental characterization and material modeling considering proportional loading at room temperature. Int J Plast 55:247–267CrossRef

25.

Park J, Lee H, Kim JJ, Kwon OD (2015) Newly developed E-form Mg in POSCO. The 10th International Conference on Magnesium Alloys and Their Applications. Korean Institute of Metals and Materials, Jeju-Do

26.

Singh J, Kim M-S, Lee J-H, Guim H, Choi S-H (2019) Microstructure evolution and deformation behaviors of E-form and AZ31 Mg alloys during ex-situ mini-V-bending tests. J Alloys Compd 778:124–133CrossRef

27.

Chaudry UM, Kim TH, Park SD, Kim YS, Hamad K, Kim JG (2018) On the high formability of AZ31-0.5Ca magnesium alloy. Materials. 11

28.

Jiménez JL (2017) Development of an Arcan test fixture for mixed-mode loading of sheet metals [Master]. TU-Hamburg, Hamburg

29.

Steglich D, Tian X, Besson J (2016) Mechanism-based modelling of plastic deformation in magnesium alloys. European Journal of Mechanics - A/Solids 55:289–303MathSciNetCrossRef

30.

Ray AK, Wilkinson DS (2016) The effect of microstructure on damage and fracture in AZ31B and ZEK100 magnesium alloys. Mater Sci Eng A 658:33–41CrossRef

Titel: Mixed-Mode Deformation and Failure of a Magnesium Sheet Quantified using a Modified Arcan Fixture
verfasst von: D. Steglich
Publikationsdatum: 15.10.2019
Verlag: Springer US
Erschienen in: Experimental Mechanics / Ausgabe 1/2020
Print ISSN: 0014-4851
Elektronische ISSN: 1741-2765
DOI: https://doi.org/10.1007/s11340-019-00542-y

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