Your search keyword '"Gur, Hila Ben"' showing total 3 results

1. The effect of fiber bridging on mode I fatigue delamination propagation—part I: Testing.

Author

Banks‐Sills, Leslie and Gur, Hila Ben

Subjects

*MATERIAL fatigue, *CARBON fibers, *CONFORMANCE testing, *LAMINATED materials, *FATIGUE testing machines, *COHESIVE strength (Mechanics)

Abstract

The purpose of this investigation is to assess the effect of fiber bridging on fatigue delamination propagation. Fiber bridging occurs when testing beam type laminates specimens consisting of unidirectional plies. Unidirectional double cantilever beam specimens composed of the carbon fiber reinforced polymer prepreg AS4/8552 were tested by means of fatigue cycling. A Paris relation was determined based on these tests. Fiber bridging in beam specimens composed of unidirectional plies causes the apparent fatigue delamination curves to exhibit slower growth predicting overly conservative results. In Part I of this study, the effect of fiber bridging was eliminated experimentally from the results. In Part II of this study, a cohesive zone model is developed and used to carry out finite element analyses to simulate the experiments, as well as to eliminate the influence of fiber bridging. Highlights: Fatigue delamination propagation tests were carried out on UD DCB laminate specimens.Fiber bridging was observed.Measurements were made of the fiber bridging (FB) zone.In Part II, a cohesive zone model is used to quantify the effect of FB and eliminate it. [ABSTRACT FROM AUTHOR]

Published

2024

2. Computational Fluid Dynamics of Blood Flow in the Abdominal Aorta Post “Chimney” Endovascular Aneurysm Repair (ChEVAR)

Author

Gur, Hila Ben, primary, Brand, Moses, additional, Kósa, Gábor, additional, and Golan, Saar, additional

Published

2017

3. Computational Fluid Dynamics of Blood Flow in the Abdominal Aorta Post “Chimney” Endovascular Aneurysm Repair (ChEVAR)

Author

Gur, Hila Ben

Subjects

Medical / Cardiology

Abstract

Abdominal aortic aneurysms (AAAs) are a significant cause of death in the Western world. Endovascular aneurysm repair (EVAR) is becoming the prevalently used procedure to repair AAAs (versus the traditional approach of open surgery). In cases of infrarenal AAAs, there is a risk of the renal arteries being blocked by the stent graft (SG) inserted to repair the aneurysm. In these cases, two additional SGs termed”chimney” stent grafts (CSGs) are inserted into the renal arteries in parallel with the main SG to exclude this hazard. In this study, the hemodynamics of an infrarenal AAA endovascularly repaired by a system of SGs using the “chimney” technique is investigated. Two AAA models are analyzed using computational fluid dynamics (CFD, Ansys Fluent)—a healthy abdominal aorta and an abdominal aorta post”chimney” endovascular aneurysm repair (ChEVAR) with a CSG inserted into each renal artery in parallel with the aortic SG. Results indicate that CSGs induce stagnation zones downstream the renal arteries yet mild and confined overall flow and wall shear stress (WSS) modifications. The flow regime remains principally laminar. The study findings indicate the limited hemodynamic modifications of the ChEVAR procedure and thus further support its merit.

Published

2017