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Al-Chlaihawi, Murtadha JAutor o CoautorDesena-Galarza, DarielAutor o CoautorMerodio, JoseAutor o Coautor

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Computational modeling of a residually stressed thick-walled cylinder under the combined action of axial extension and inflation

Publicado en:Finite Elements In Analysis And Design. 244 104309- - 2025-02-01 244(), DOI: https://doi.org/10.1016/j.finel.2024.104309

Autores: Al-Chlaihawi, Murtadha J; Desena-Galarza, Dariel; Topol, Heiko; Merodio, Jose

Afiliaciones

New Uzbekistan Univ, Dept Mech Engn, Movarounnahr St 1, Tashkent 100007, Uzbekistan - Autor o Coautor
Univ Al Qadisiyah, Civil Engn Dept, Al Qadisiyah 58001, Iraq - Autor o Coautor
Univ Politecn Madrid, Dept Matemat Aplicada TIC, ETS Ingn Sistemas Informat, Madrid 28031, Spain - Autor o Coautor
Univ Politecn Madrid, Programa Ingn Estruct Cimentac & Mat, ETS Ingn Caminos Canales & Puertos, Madrid 28040, Spain - Autor o Coautor

Resumen

Previous studies have shown that the mechanical response of incompressible hyperelastic materials is affected by the occurrence of residual stresses. In the context of biological soft tissues, such residual stresses result from factors that include growth and development processes. The detailed effect of these initial stresses on mechanical behavior remains to be explored in detail. The magnitude and distribution of residual stresses in arterial wall tissue affect the location of the occurrence of instabilities such as bulges. This study aims to develop a new approach to assess material behavior during bifurcation instability in the presence of residual stresses, especially non-planar stresses. A finite element protocol is developed for bifurcation and post-bifurcation of residually stressed thick-walled hyper-elastic circular hollow tubes subjected to axial stretches and internal pressure, incorporating three-dimensional residual stresses. A constitutive equation based on the strain energy function for these tubes is formulated and implemented in ABAQUS, using the Modified Riks method and a user-defined material subroutine (UMAT). Results indicate that bending bifurcation is likely for small axial stretches but becomes less probable with larger axial stretches while bulging bifurcation is expected for all axial stretch values. Pressures associated with pure bulging modes are higher than those for bulging induced by bending, suggesting aneurysms can be delayed by avoiding bending bifurcation. The bulging from bending bifurcation occurs on one side of the tubes, reflecting abdominal aortic aneurysm (AAA) conditions. The unsymmetrical bulge development aligns with the methodology used, whereas balloon-like bulging in pure modes is linked to arterial rupture.

Palabras clave

AbaqusAbdominal aortic aneurysmAbdominal aortic aneurysmsAbdominal aortic aneurysms (aaa)AneurysmAxial stretchBending bifurcationBifurcationBifurcation (mathematics)Biped locomotionBloodBulging bifurcationCircular-cylindersCombined actionsComputational modellingConstitutive equationsCylindrical membranesElastic-materialFinite deformationsFinite elemenFinite elementImperfectionsInitiationPropagationResidual stressesStabilitSubroutinesThick walled cylindersThree-dimensional residual stressTissueTube

Indicios de calidad

Impacto bibliométrico. Análisis de la aportación y canal de difusión

El trabajo ha sido publicado en la revista Finite Elements In Analysis And Design debido a la progresión y el buen impacto que ha alcanzado en los últimos años, según la agencia WoS (JCR), se ha convertido en una referencia en su campo. En el año de publicación del trabajo, 2025, se encontraba en la posición 38/170, consiguiendo con ello situarse como revista Q1 (Primer Cuartil), en la categoría Mechanics.

2025-06-16:

  • Scopus: 1

Análisis de liderazgo de los autores institucionales

Este trabajo se ha realizado con colaboración internacional, concretamente con investigadores de: Iraq; Uzbekistan.

Existe un liderazgo significativo ya que algunos de los autores pertenecientes a la institución aparecen como primer o último firmante, se puede apreciar en el detalle: Primer Autor (HUSSEIN, MURTADHA) y Último Autor (MERODIO GOMEZ, JOSE).