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Article Dans Une Revue Experimental Mechanics Année : 2013

Load-Inversion Device for the High Strain Rate Tensile Testing of Sheet Materials with Hopkinson Pressure Bars

Résumé

A high strain rate tensile testing technique for sheet materials is presented which makes use of a split Hopkinson pressure bar system in conjunction with a load inversion device. With compressive loads applied to its boundaries, the load inversion device introduces tension into a sheet specimen. Two output bars are used to minimize the effect of bending waves on the output force measurement. A Digital Image Correlation (DIC) algorithm is used to determine the strain history in the specimen gage section based on high speed video imaging. Detailed finite element analysis of the experimental set-up is performed to validate the design of the load inversion device. It is shown that under the assumption of perfect alignment and slip-free attachment of the specimen, the measured stress-strain curve is free from spurious oscillations at a strain rate of 1,000 s(-1). Validation experiments are carried out using tensile specimens extracted from 1.4 thick TRIP780 steel sheets. The experimental results for uniaxial tension at strain rates ranging from 200 s(-1) to 1,000 s(-1) confirm the oscillation-free numerical results in an approximate manner. Dynamic tension experiments are also performed on notched specimens to illustrate the validity of the proposed experimental technique for characterizing the effect of strain rate on the onset of ductile fracture in sheet materials.

Dates et versions

hal-00871616 , version 1 (10-10-2013)

Identifiants

Citer

Matthieu Dunand, Gary Gérard, Dirk Mohr. Load-Inversion Device for the High Strain Rate Tensile Testing of Sheet Materials with Hopkinson Pressure Bars. Experimental Mechanics, 2013, 53 (7), pp.1177-1188. ⟨10.1007/s11340-013-9712-y⟩. ⟨hal-00871616⟩
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