Many studies have focused on the topic of vehicle safety, including the study on crashworthiness. In vehicle, a crash box structure is an integral component for ensuring the safety of a car. It serves as an energy-absorbing member, together with the front bumper in case of frontal collision during car accidents. Therefore, special attention has to be given towards this structure in order to have better understanding regarding its mechanism of deformation and absorbing kinetic energy from the collision, as well as on how to obtain good crashworthy properties from this structure. This study, primarily, is based on extensive literature survey pertaining to the topic of crash box. As the topic of energy-absorbing member in a car is extensive, this review solely focuses on crash box structure. The main motivation of this paper is to summarise the different approaches and aspects of researches performed on car crash box structure to gain comprehensive knowledge regarding the study on crash box.

A review on crashworthiness studies of crash box structure

Design of metastructures with quasi-zero dynamic stiffness for vibration isolation

This research proposes a novel analytical model capable of accurately predicting the strain-dependent characteristics of fiber reinforced composite shells (FRCSs) with partial constrained layer damping (CLD) treatment by considering the nonlinearities of fiber reinforced composite and viscoelastic materials simultaneously. The nonlinear material properties are represented based on Jones-Nelson nonlinear theory, energy-based strain energy method, and complex modulus method. Then, the governing equations of motion for FRCSs are developed via Ritz method, and the identification procedure of nonlinear fitting parameters is also presented. By taking a T300 carbon fiber/epoxy resin cylindrical shell with partial CLD patches as an example, a series of experiments are carried out to validate the proposed modeling approach. Finally, the effects of material properties on nonlinear vibration behaviors of FRCSs covered with partial CLD patches are evaluated. Comparisons show that the proposed nonlinear model is more accuracy than that without considering strain dependence, where the maximum errors between the proposed model and measured data for natural frequencies, damping ratios and resonant response are 6.9%, 11.3%, and 11.2%, respectively.

Nonlinear vibration analysis of fiber reinforced composite cylindrical shells with partial constrained layer damping treatment

An efficient concurrent topology optimization approach for frequency response problems

Topology optimization for minimizing the maximum dynamic response in the time domain using aggregation functional method

New analytic buckling solutions of rectangular thin plates with all edges free

Topology optimization of damping layers in shell structures subject to impact loads for minimum residual vibration

This paper studies optimal topology design of damped vibrating plate structures subject to initial excitations. The design objective is to minimize an integrated square performance measure. The artificial density of the plate element is the topology design variable and the material volume is given. The Lyapunov's second method is applied to reduce the calculation of performance measure to the solution of the Lyapunov equation. An adjoint sensitivity analysis method is used, which only needs to solve the Lyapunov equation twice. However, when the problem has a large number of degrees of freedom, the solution process of Lyapunov equation is computational costly. Thus, the full model is transformed to a reduced space by mode reduction method. To further reduce the scale of reduced model, we propose a mode screen method to decrease the number of eigenmodes. Numerical examples of optimum topology design of bending plates are presented for illustrating validity and efficiency of our new algorithm.

http://web.aeromech.usyd.edu.au/WCSMO2015/papers/1112_paper.pdf

Topology optimization of plate structures subject to initial excitations for minimum dynamic performance index

The existing direct sensitivity analysis of optimal structural vibration control based on Lyapunov's second method is computationally expensive when applied to finite element models with a large number of degree-of-freedom and design variables. A new adjoint sensitivity analysis method is proposed in this paper. Using the new method the sensitivity of the performance index, a time integral of a quadratic function of state variables, with respect to all design variables is calculated by solving two Lyapunov matrix equations. In consideration of computational cost reduction, the new adjoint method is further extended to the reduced order model by Guyan method. This makes the method applicable to large finite element models. Two numerical examples demonstrate the accuracy and efficiency of the proposed method.

/pdf/adjoint-methods-of-sensitivity-analysis-for-lyapunov-a9h7i65p5w.pdf

Adjoint methods of sensitivity analysis for Lyapunov equation

Topology optimization of simplified convective heat transfer problems using the finite volume method

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