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Journal Club for June 2020: Mechanically instructive biomaterials: a synergy of mechanics, materials and biology

 

Mechanically instructive biomaterials: a synergy of mechanics, materials and biology

Zhenwei Ma, Jianyu Li

Department of Mechanical Engineering, McGill University, Montreal, Canada

 

Nuwan Dewapriya's picture

Exploring the effects of temperature, transverse pressure, and strain rate on axial tensile behavior of perfect UHMWPE crystals using molecular dynamics

Our latest paper, " Exploring the Effects of Temperature, Transverse Pressure, and Strain Rate on Axial Tensile Behavior of Perfect UHMWPE Crystals Using Molecular Dynamics," is accessible freely for 50 days from this link: https://authors.elsevier.com/a/1kT-A4rCEkw1es

The key findings can be summarized as follows:

Advanced numerical modelling and simulation of vesicle dynamics using phase-field and isogeometric analysisSeminars@DEM - Navid Valizadeh (Leibniz University Hannover)

 

 

"Advanced numerical modelling and simulation of vesicle dynamics using phase-field and isogeometric analysis" - January 31, 2025, Friday, 3:00 pm, Pavilhão de Mecânica II, amphitheatre AM

Date: January 31, 2025, Friday
Time: 3:00 pm
Place: Pavilhão de Mecânica II, amphitheatre AM

Two PhD positions at Royal Institute of Technology in Sweden

two PhD positions in our team working on 1) multiscale modeling of brain biomechanics and 2) machine learning-accelerated virtual testing. 

Please forward the information to anybody you know who may be interested. Kindly note the application deadline is Jan 24.

 

 

PhD scholarship application in Geomechanics at University of Lyon & China Scholarship Council - Study of the hydromechanical behaviour of soils using a meshless approach to model large soil movements close to geo-structures

Full description & contact: see attached document
University & laboratory: University of Lyon, Laboratoire de Tribologie et Dynamique des Systèmes (LTDS), Ecole Nationale des Travaux Publics de l'Etat (ENTPE), Géomatériaux et Constructions Durables (GCD).
Location: Lyon, France
Period: 4-year China Scholarship Council scholarship application (only chinese student application)

Osama R. Bilal's picture

Curvature Matters!

In this recent EML paper, we show the stark effect of curvature on the performance of metamaterials, both in the static and dynamic domains. Read more at: https://doi.org/10.1016/j.eml.2024.102285

Antonio Papangelo's picture

Enhancement of adhesion strength through microvibrations: Modeling and experiments

AbstractHigh-frequency micrometrical vibrations have been shown to greatly influence the adhesive performance of soft interfaces, however a detailed comparison between theoretical predictions and experimental results is still missing. Here, the problem of a rigid spherical indenter, hung on a soft spring, that is unloaded from an adhesive viscoelastic vibrating substrate is considered. The experimental tests were performed by unloading a borosilicate glass lens from a soft PDMS substrate excited by high-frequency micrometrical vibrations.

Mike Ciavarella's picture

Leonardo's universal friction coefficient is found to be universal after all!

It turns out that friction coefficient 0.25 suggested as universal by Leonardo da Vinci more than 500 years ago has some universaility, as minimum friction coefficient for any granular material: it makes me proud as italian ;) I guess it would be interesting to show this experimental result also theoretically or numerically, any interest? [HTML] 

Amit Acharya's picture

The Second Law as a constraint and admitting the approximate nature of constitutive assumptions

A scheme for treating the Second Law of thermodynamics as a constraint and accounting for the approximate nature of constitutive assumptions in continuum thermomechanics is discussed. An unconstrained, concave, variational principle is designed for solving the resulting mathematical problem. Cases when the Second Law becomes an over-constraint on the mechanical model, as well as when it serves as a necessary constraint, are discussed.

Mike Ciavarella's picture

A new analytical model for fibrillar viscoelastic adhesion using the Schapery or the Shrimali-Lopez-Pamies nucleation models

Hello:  I would be interested in any comment about this preprint on fibrillar viscoelastic adhesion, originally devised by Schargott Popov and Gorb, where we use for the first time not only the Schapery model for nucleation of cracks, but also the Shrimali and Lopez Pamies, which leads to quite stronger enhancement of adhesion (the limit is the square of the Schapery one), and pull-off with no real prior propagation phase.  Propagation with Schapery nucleation criterion is found to be qualitatively similar to the Schapery and Persson-Brener propagation theories, except that the reference ve

1 x Master by Research / PhD Funded Student @ Swinburne

Postgraduate (Master by Research / PhD) under Swinburne-National Road Safety Action Grants Program (NRSAGP) funded by Australia’s Department of Infrastructure, Transport, Regional Development, Communications and the Arts

 

Amit Acharya's picture

B-Splines, and ML approximants for PDE via duality

Variational formulation based on duality to solve partial differential equations: Use of B-splines and machine learning approximants

N. Sukumar              Amit Acharya

Many partial differential equations (PDEs) such as Navier–Stokes equations in fluid mechanics, inelastic deformation in solids, and transient parabolic and hyperbolic equations do not have an exact, primal variational structure. Recently, a variational principle based on the dual (Lagrange multiplier) field was proposed. The essential idea in this approach is to treat the given PDE as constraints, and to invoke an arbitrarily chosen auxiliary potential with strong convexity properties to be optimized. This leads to requiring a convex dual functional to be minimized subject to Dirichlet boundary conditions on dual variables, with the guarantee that even PDEs that do not possess a variational structure in primal form can be solved via a variational principle. The vanishing of the first variation of the dual functional is, up to Dirichlet boundary conditions on dual fields, the weak form of the primal PDE problem with the dual-to-primal change of variables incorporated. We derive the dual weak form for the linear, one-dimensional, transient convection diffusion equation. A Galerkin discretization is used to obtain the discrete equations, with the trial and test functions chosen as linear combination of either RePU activation functions (shallow neural network) or B-spline basis functions; the corresponding stiffness matrix is symmetric. For transient problems, a space-time Galerkin implementation is used with tensor-product B-splines as approximating functions. Numerical results are presented for the steady-state and transient convection-diffusion equation, and transient heat conduction. The proposed method delivers sound accuracy for ODEs and PDEs and rates of convergence are established in the L2 norm and H1 seminorm for the steady-state convection-diffusion problem.

Amit Acharya's picture

Variational Dual Solutions of PDE

Equations not arising from a variational principle, as well as ones that arise from functionals that are not bounded above or below, can be endowed with one with favorable properties. The concept, and some examples are listed below:

Postdoctoral Position in Computational and Probabilistic Fracture Mechanics

The Fracture Mechanics and Structural Integrity Research Laboratory (NAMEF) of the Polytechnic School of Engineering at the University of São Paulo (EPUSP) in Brazil has an opening for a 2-year postdoctoral fellow (which may be extended to an additional year depending on funding availability) with a strong background in fracture mechanics and computational modeling of materials starting from February/2025.

oliver oreilly's picture

Transporting cylinders of compressed gas

A common, yet hazardous, method of transporting cylindrical tanks used to carry compressed gas involves rolling both tanks at opposite angles of inclination to the vertical. By propelling one of the tanks while maintaining point contact between the tanks, both tanks can be moved such that their centers of mass move in a straight line as demonstrated in the video below:

https://www.youtube.com/watch?v=Vgn5fv__LAk

In a paper that has just been published

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