Anders Nordli scite author profile

We establish the concept of α-dissipative solutions for the twocomponent Hunter-Saxton system under the assumption that either α(x) = 1 or 0 ≤ α(x) < 1 for all x ∈ R. Furthermore, we investigate the Lipschitz stability of solutions with respect to time by introducing a suitable parametrized family of metrics in Lagrangian coordinates. This is necessary due to the fact that the solution space is not invariant with respect to time.which has been introduced by Hunter and Saxton as a model of the director field of a nematic liquid crystal [14].Solutions of the 2HS system develop singularities in finite time, even for smooth initial data [16,18]. The appearance of singularities, known as wave breaking, means that u x tends pointwise to −∞ while u remains bounded and continuous. The phenomenon is illustrated in the following example.

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Numerical conservative solutions of the Hunter–Saxton equation

Grunert

Nordli

Solem

2021

Bit Numer Math

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In the article a convergent numerical method for conservative solutions of the Hunter–Saxton equation is derived. The method is based on piecewise linear projections, followed by evolution along characteristics where the time step is chosen in order to prevent wave breaking. Convergence is obtained when the time step is proportional to the square root of the spatial step size, which is a milder restriction than the common CFL condition for conservation laws.

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Thermoelastic Investigation of Carbon-Fiber-Reinforced Composites Using a Drop-Weight Impact Test

et al. 2020

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Composite materials are becoming more popular in technological applications due to the significant weight savings and strength offered by these materials compared to metallic materials. In many of these practical situations, the structures suffer from drop-impact loads. Materials and structures significantly change their behavior when submitted to impact loading conditions compared to quasi-static loading. The present work is devoted to investigating the thermal process in carbon-fiber-reinforced polymers (CFRP) subjected to a drop test. A novel drop-weight impact test experiment is performed to evaluate parameters specific to 3D composite materials. A strain gauge rosette and infrared thermography are employed to record the kinematic and thermal fields on the composites’ surfaces. This technique is nondestructive and offers an extensive full-field investigation of a material’s response. The combination of strain and infrared thermography data allows a comprehensive analysis of thermoelastic effects in CFRP when subjected to impacts. The experimental results are validated using numerical analysis by developing a MATLAB® code to analyze whether the coupled heat and wave equation phenomenon exists in a two-dimensional polar coordinate system by discretizing through a forward-time central-space (FTCS) finite-difference method (FDM). The results show the coupling has no significant impact as the waves generated due to impact disappears in 0.015 s. In contrast, heat diffusion happens for over a one-second period. This study demonstrates that the heat equation alone governs the CFRP heat flow process, and the thermoelastic effect is negligible for the specific drop-weight impact load.

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The Riemann solver for traffic flow at an intersection with buffer of vanishing size

Bressan¹,

Nordli

2017

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The paper examines the model of traffic flow at an intersection introduced in [2], containing a buffer with limited size. As the size of the buffer approach zero, it is proved that the solution of the Riemann problem with buffer converges to a self-similar solution described by a specific Limit Riemann Solver (LRS). Remarkably, this new Riemann Solver depends Lipschitz continuously on all parameters.

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Anders Nordli

A Lipschitz metric for conservative solutions of the two-component Hunter–Saxton system

Existence and Lipschitz stability for α-dissipative solutions of the two-component Hunter–Saxton system

Numerical conservative solutions of the Hunter–Saxton equation

Thermoelastic Investigation of Carbon-Fiber-Reinforced Composites Using a Drop-Weight Impact Test

The Riemann solver for traffic flow at an intersection with buffer of vanishing size

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