Dynamic Characterization of a Fiber-Metal Laminate

Rafael Celeghini Santiago; Marcilio Alves

doi:10.4028/www.scientific.net/KEM.535-536.48

Paper Titles

Mechanics of Stretchable Electronics
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Damage of Plates due to Impact, Dynamic Pressure and Explosive Loads
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Impact Crushing and Rebound of Thin-Walled Hollow Spheres
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The Response of Circular Plates to Repeated Uniform Blast Loads
p.44

Dynamic Characterization of a Fiber-Metal Laminate
p.48

Effect of Configuration and Target Span on the Ballistic Resistance
p.52

Experimental Study on a Graded Stainless Steel Sheet under Quasi-Static and Dynamic Loading
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Effect of Strain Rate on Constitutive Behavior of AA-5052 H34
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A Study into the Behavior of an Aluminum Foam under Compression
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HomeKey Engineering MaterialsKey Engineering Materials Vols. 535-536Dynamic Characterization of a Fiber-Metal Laminate

Dynamic Characterization of a Fiber-Metal Laminate

Abstract:

The mechanical strength of a fiber-metal laminate is not so well explored at high strain rates, although its constituents are prone to exhibit such effects. In this paper, we describe an investigation of aluminium-fiber glass material using the Split Hopkinson bar device. We report on various experimental issues related to these tests, giving some emphasis to the use of high speed filming to obtain information on the specimen strain and strain rate.

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Periodical:

Key Engineering Materials (Volumes 535-536)

Pages:

48-51

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.535-536.48

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Online since:

January 2013

Authors:

Rafael Celeghini Santiago, Marcilio Alves

Keywords:

Dynamic Tensile Tests, Fiber-Metal Laminate (FML), Hopkinson Bar Test

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References

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