524 research outputs found
Correct energy evolution of stabilized formulations: The relation between VMS, SUPG and GLS via dynamic orthogonal small-scales and isogeometric analysis. II: The incompressible Navier-Stokes equations
This paper presents the construction of a correct-energy stabilized finite
element method for the incompressible Navier-Stokes equations. The framework of
the methodology and the correct-energy concept have been developed in the
convective--diffusive context in the preceding paper [M.F.P. ten Eikelder, I.
Akkerman, Correct energy evolution of stabilized formulations: The relation
between VMS, SUPG and GLS via dynamic orthogonal small-scales and isogeometric
analysis. I: The convective--diffusive context, Comput. Methods Appl. Mech.
Engrg. 331 (2018) 259--280]. The current work extends ideas of the preceding
paper to build a stabilized method within the variational multiscale (VMS)
setting which displays correct-energy behavior. Similar to the
convection--diffusion case, a key ingredient is the proper dynamic and
orthogonal behavior of the small-scales. This is demanded for correct energy
behavior and links the VMS framework to the streamline-upwind Petrov-Galerkin
(SUPG) and the Galerkin/least-squares method (GLS).
The presented method is a Galerkin/least-squares formulation with dynamic
divergence-free small-scales (GLSDD). It is locally mass-conservative for both
the large- and small-scales separately. In addition, it locally conserves
linear and angular momentum. The computations require and employ NURBS-based
isogeometric analysis for the spatial discretization. The resulting formulation
numerically shows improved energy behavior for turbulent flows comparing with
the original VMS method.Comment: Update to postprint versio
On the mechanical behaviour of a butt jointed thermoplastic composite under bending
In the present work, the mechanical behavior of a recently developed novel butt jointed thermoplastic composite was investigated under bending conditions. The laminated skin and the web were made of carbon fiber (AS4) and polyetherketoneketone (PEKK). The butt joint (filler) was injection molded from 20% short carbon fiber filled with PEKK thermoplastic. The skin and web were co-consolidated together with the butt joint in the form of a hybrid T-shaped structure. A three point bending (3 PB) set-up was used to investigate the mechanical response of the hybrid composite. The crack initiation and propagation mechanisms for the filler and the delamination at the skin-filler interface were captured using a high speed camera. It was found from the experimental observations that the crack initiated in the filler and then propagated towards the skin-filler interface. A numerical model was also developed using the finite element method in ABAQUS including the crack initiation and growth in the filler together with the delamination at the skin-filler interface. For this purpose the virtual crack closure technique (VCCT) was employed for the crack growth in the filler and the traction separation law was applied at the skin-filler interface using a cohesive surface. The residual stresses and deformations coming from the co-consolidation process were predicted by applying a thermal load and taken into account in the quasi-static analysis. A good agreement was found between the predicted and measured
force-displacement curves. The developed numerical model was further employed to address the crack initiation and growth in the filler and delamination at the skin-filler interface using the mix mode effective fracture energies. A linear elastic behavior was found in the structure until the crack initiation in the filler
Fatigue lifetime prediction model for leading edge protection coating systems of wind turbine blades
A space-time framework for periodic flows with applications to hydrofoils
In this paper we propose a space-time framework for the computation of
periodic flows. We employ the isogeometric analysis framework to achieve
higher-order smoothness in both space and time. The discretization is performed
using residual-based variational multiscale modelling and weak boundary
conditions are adopted to enhance the accuracy near the moving boundaries of
the computational domain. We show conservation properties and present a
conservative method for force extraction. We apply our framework to the
computation of a heaving and pitching hydrofoil. Numerical results display very
accurate results on course meshes
eHealth in TB clinical management
BACKGROUND: The constant expansion of internet and mobile technologies has created new opportunities in the field of eHealth, or the digital delivery of healthcare services. This TB meta-analysis aims to examine eHealth and its impact on TB clinical management in order to formulate recommendations for further development.METHODS: A systematic search was performed using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses framework in PubMed and Embase of articles published up to April 2021. Screening, extraction and quality assessment were performed by two independent researchers. Studies evaluating an internet and/or mobile-based eHealth intervention with an impact on TB clinical management were included. Outcomes were organised following the five domains described in the WHO "Recommendations on Digital Interventions for Health System Strengthening" guideline.RESULTS: Search strategy yielded 3,873 studies, and 89 full texts were finally included. eHealth tended to enhance screening, diagnosis and treatment indicators, while being cost-effective and acceptable to users. The main challenges concern hardware malfunction and software misuse.CONCLUSION: This study offers a broad overview of the innovative field of eHealth applications in TB. Different studies implementing eHealth solutions consistently reported on benefits, but also on specific challenges. eHealth is a promising field of research and could enhance clinical management of TB.</p
Beschreibung einer Vorrichtung zur Beförderung einer Flüssigkeit aus Unterdruckgefäßen in ein Medium mit Überdruck
Patentbeschreibung einer Vorrichtung, mit der Flüssigkeiten aus Unterdruckgefäßen in ein Medium mit Überdruck befördert werden können und die darauf beruht, daß die in Reihe angeordneten Aufnahmegefäße einerseits im Vakuum, andererseits mit Normaldruck arbeite
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