Finite Element Analysis of the Arcan Specimen for Fiber Reinforced Composites under Pure Shear and Biaxial Loading

Hung, S.C.; Liechti, Kenneth M.

doi:10.1177/002199839903301402

Cited by 26 publications

(17 citation statements)

References 31 publications

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“…According to Hung and Liechti (1999), the notch was formed with an angle of about 110°, and a radius at the notch base of 2 mm. This geometry seems to be a good compromise for specimens of different orientations in the TR, LR, and LT planes.…”

Section: Methodsmentioning

confidence: 99%

Anisotropic elastic properties of common ash (Fraxinus excelsior L.)

2014

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Hardwoods in principle show a similar orthotropic behavior as softwoods; however, the ratios of the mechanical parameters between the three anatomical directions and their magnitudes are different and depend strongly on the individual microstructure of the species. The aim of the current study was to characterize the 3-D elastic behavior of common ash (Fraxinus excelsior L.) by tensile, compression, and shear tests in the three anatomical directions and stepwise in between, by means of a universal testing machine in combination with a digital image correlation technique. Young's moduli, shear moduli, and Poisson's ratios have been determined for the different load directions. From studies on the radial-tangential plane of other wood species, it is known that the elastic moduli in the principal directions and the off-axis elastic moduli vary in a nonlinear correlation, depending on density gradients between earlywood and latewood. This angular dependency has been experimentally and theoretically proven for ash. Furthermore, the dependency of mechanical parameters on the fiber-load angle has been experimentally determined. The measurements for principal and off-axis load directions provide a sound basis for modeling of hardwood structures.

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Section: Methodsmentioning

confidence: 99%

Anisotropic elastic properties of common ash (Fraxinus excelsior L.)

2014

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“…This fracture path is consistent with finite-element analysis of the stress distribution in the test geometry. 16 On the other hand, joints formed in microgravity showed a different fracture path. As described for joints formed in normal gravity, the failure originated from the intermetallic layer at a specimen edge, but soon deviated into the bulk solder.…”

Section: Resultsmentioning

confidence: 99%

Strength of Soldered Joints Formed under Microgravity Conditions

Thomas

Atkinson

Dashwood

2007

Journal of Elec Materi

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Experiments have been carried out to compare the mechanical strength of joints soldered with Sn-Ag-Cu under different gravitational conditions. Joints soldered under microgravity (produced during a parabolic flight) have lower strength (by 32% in this case) than similar joints formed under normal gravity. Electron microscopy has shown that this is due to a larger volume of residual porosity (14%) in the joints formed in microgravity compared with <1% for joints formed in normal gravity. The residual porosity in joints formed in microgravity is mainly within the bulk of the solder, with some microporosity in the Cu 6 Sn 5 intermetallic layer near the copper interfaces. The porosity not only weakens the joint, but also biases the failure path away from the intermetallic layer and into the bulk of the solder. These observations show that gravitational buoyancy is important for the expulsion of flux and flux residues from soldered joints.

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“…This was done for the ROI to avoid stress concentration due to load introduction from the end tabs. For the shear specimens, the strains were averaged over the whole gauge section was used for the ROI as proposed by [18], [19]. The averaged strains measured over the ROI zones were referenced against the average (or nominal) stresses in the gauge zone defined by the force measured by the load cell divided by the gauge zone cross section areas.…”

Section: Digital Image Correlationmentioning

confidence: 99%

Damage in CFRP composites subjected to simulated lighting strikes - Assessment of thermal and mechanical responses

Harrell

Thomsen

Dulieu-Barton

et al. 2019

Composites Part B: Engineering

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Damage is inflicted upon Carbon Fiber Reinforced Polymer (CFRP) composite laminates using simulated lightning strikes to investigate the resulting residual mechanical properties. Seven different CFRP laminate specimens were exposed to simulated lightning strikes using three different electric waveforms. The three waveforms imposed were the 10/350 µs waveform, which simulates the first return stroke during a direct strike according to IEC 61400-24 Ed1.0. The second was a unipolar long stroke component, and the third was a combination of the first return stroke and the long stroke. After exposure to lightning, coupon specimens were prepared for mechanical testing. The test specimens were subsequently subjected to compression and shear loading to determine the post-strike mechanical properties. The compression tests were conducted using uniaxial coupons in accordance with ASTM standard D6641. The shear tests were conducted using V-notch specimens utilizing an Iosipescu test rig in accordance with ASTM standard D5379. Digital Image Correlation was used to capture the strain fields on the surface of the specimens. The results of the material coupon tests are compared with test results from pristine CFRP coupon samples that were not exposed to any electrical current. The shear and compression 2 strengths, compressive and shear stress-strain curves, compressive and shear moduli, and the maximum temperature on the CFRP specimens during lightning tests are presented and discussed. Key results include that the largest reduction of strength occurred in the specimens that were subjected to the largest current and specific energy.The specific energy correlated more closely to the observed reduction of residual strength than the charge, and the damaged specimens displayed a higher degree of nonlinear stress-strain behavior than the pristine specimens.

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Finite Element Analysis of the Arcan Specimen for Fiber Reinforced Composites under Pure Shear and Biaxial Loading

Cited by 26 publications

References 31 publications

Anisotropic elastic properties of common ash (Fraxinus excelsior L.)

Anisotropic elastic properties of common ash (Fraxinus excelsior L.)

Strength of Soldered Joints Formed under Microgravity Conditions

Damage in CFRP composites subjected to simulated lighting strikes - Assessment of thermal and mechanical responses

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