| People | Locations | Statistics |
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Groh, Rainer Mj
University of Bristol
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (45/45 displayed)
- 2024Quantifying efficient shape-shiftingcitations
- 2024Dataset for computational and experimental buckling analysis of constant-stiffness and variable-stiffness composite cylinders
- 2023Local Analysis-Test Correlation of Tow-Steered Composite Shells with Small Cutouts
- 2023Increasing reliability of axially compressed cylinders through stiffness tailoring and optimizationcitations
- 2022Probing the stability landscape of prestressed stayed columns susceptible to mode interactioncitations
- 2021Optimization of imperfection-insensitive continuous tow sheared rocket launch structurescitations
- 2021Design of Shape-Adaptive Deployable Slat-Cove Filler for Airframe Noise Reductioncitations
- 2021Manufacture and buckling test of a variable-stiffness, variable-thickness composite cylinder under axial compressioncitations
- 2021Flexural analysis of laminated beams using zigzag theory and a mixed inverse differential quadrature method
- 2020Imperfection-Insensitive Continuous Tow-Sheared Cylinderscitations
- 2020A strain-displacement mixed formulation based on the modified couple stress theory for the flexural behaviour of laminated beams.citations
- 2020An efficient semi-analytical framework to tailor snap-through loads in bistable variable stiffness laminatescitations
- 2020Newton’s method for experimental path-following of nonlinear structures
- 2020Imperfection-Insensitive Continuous Tow Sheared Cylinder
- 2019Efficient 3D Stress Capture of Variable-Stiffness and Sandwich Beam Structurescitations
- 2019A strain-displacement variational formulation for laminated composite beams based on the modified couple stress theory
- 2019Happy Catastrophecitations
- 2019On the accuracy of localised 3D stress fields in tow-steered laminated composite structurescitations
- 2018A tailored nonlinear slat-cove filler for airframe noise reduction.
- 2018Generalised path-following for well-behaved nonlinear structurescitations
- 2018Design and testing of a passively adaptive inletcitations
- 2018Three-dimensional stress analysis for laminated composite and sandwich structurescitations
- 2018Extreme mechanics in laminated shellscitations
- 2018HCI meets Material Sciencecitations
- 2017Post-buckling analysis of variable-angle tow composite plates using Koiter's approach and the finite element methodcitations
- 2017Computationally efficient beam elements for accurate stresses in sandwich laminates and laminated composites with delaminationscitations
- 2017Investigation of failure initiation in curved composite laminates using a higher-order beam modelcitations
- 2017Adaptive air inlet for fluid flow control
- 2016Deleterious localised stress fieldscitations
- 2016Morphing structures for flow regulation
- 2016A computationally efficient 2D model for inherently equilibrated 3D stress predictions in heterogeneous laminated plates. Part Icitations
- 2016Adaptive Nonlinear Structures for Flow Regulation
- 2016Higher-order beam model for stress predictions in curved beams made from anisotropic materialscitations
- 2016A computationally efficient 2D model for inherently equilibrated 3D stress predictions in heterogeneous laminated plates. Part IIcitations
- 2016Mixed shell element for static and buckling analysis of variable angle tow composite platescitations
- 2016Koiter asymptotic analysis of Variable Angle Tow composite plates
- 2015Application of the Refined Zigzag Theory to the Modeling of Delaminations in Laminated Composites
- 2015Static inconsistencies in certain axiomatic higher-order shear deformation theories for beams, plates and shellscitations
- 2015A mixed-variational, higher-order zig-zag theory for highly heterogeneous layered structures
- 2015Mass Optimisation of Variable Angle Tow, Variable Thickness Panels with Static Failure and Buckling Constraintscitations
- 2015Full-field stress tailoring of composite laminates
- 2015On displacement-based and mixed-variational equivalent single layer theories for modelling highly heterogeneous laminated beamscitations
- 2014Buckling analysis of variable angle tow, variable thickness panels with transverse shear effectscitations
- 2014Post-buckling analysis of variable angle, variable thickness panels manufactured by Continuous Tow Shearing
- 2013Buckling analysis of variable angle tow, variable thickness panels with transverse shear effects
Places of action
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article
Extreme mechanics in laminated shells
Abstract
<p>Fibre-reinforced composite laminates are increasingly popular for lightweight applications in the aerospace, wind turbine and automotive industries. Apart from their excellent specific strength and stiffness properties, their orthotropic and layered construction can be exploited to create bistable systems that are useful for shape-adaptive morphing or energy-harvesting applications. The nonlinear interaction between initial curvature and induced thermal stresses can lead to “extreme” mechanics with rich branching and multi-stable behaviour. Here, we explore the multi-stability of curved composite laminates in the two-dimensional parameter space of temperature and mechanical loading. Analyses conducted via finite element discretisation and numerical continuation algorithms reveal possible snapping behaviour between five different mode shapes for different combinations of applied load and temperature. Furthermore, we show that a composite laminate can exhibit four stable, self-equilibrated mode shapes for a narrow temperature range. Hence, the multi-stable and nonlinear mechanics of composite laminates is much more complex than previously assumed, and this may influence the design of more versatile morphing structures.</p>