A New Equivalent Static Load (ESL) Creation Procedure for Complete Vehicle

Jens Weber, Faria Ricardo Luiz Felipe, Jesper Bäcklund, M. Vignati, Federico Cheli
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Abstract

When dealing with the structural behavior of a car body, analyzing the dynamic distortion in all body closure openings in a complete vehicle, provides a better understanding of the body characteristics compared to traditional static load cases such as static torsional body stiffness. This is particularly relevant for non-traditional vehicle layouts and electric vehicle architectures where mass distribution and in particular battery mass and stiffness play a completely different effect with respect to the internal combustion engine vehicles.A methodology typically adopted to measure the body response, e.g. when driving a vehicle on a rough pavé road, is the so-called Multi Stethoscope (MSS). The MSS is measuring the distortion in each body closure opening in two diagonals. During the virtual development, the distortion is described by the relative displacement in diagonal direction in time domain using a modal transient analysis. The results are shown as Opening Distortion Fingerprint ODF and used as assessment criteria within Solidity and Perceived Quality.By applying the Principal Component Analysis (PCA) on the time history of the distortion, a Dominant Distortion Pattern (DDP) can be identified. The DDP means that, for a given pavé time history, more than 50 % of the body deformation states are similar to each other. This paper presents a deeper analysis about the forces which are associated with this Dominant Distortion Pattern (DDP). The new aspect of this analysis is that all forces (54 in total) between the wheel suspension and the trimmed body are considered. Based on the results of this force analysis, a new procedure for creating an Equivalent Static Load (ESL) was developed. Finally, by automating this creation procedure it is shown how the new ESL can be integrated in the virtual vehicle development.
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新的整车等效静载荷(ESL)创建程序
在处理车身结构行为时,与传统的静态载荷情况(如车身静态扭转刚度)相比,分析整车所有车身封闭开口的动态变形可以更好地了解车身特性。这对于非传统汽车布局和电动汽车结构尤为重要,因为在非传统汽车布局和电动汽车结构中,质量分布,特别是电池质量和刚度,与内燃机汽车相比具有完全不同的效果。多听诊器测量的是两个对角线上每个车身闭合开口的变形。在虚拟开发过程中,通过时域模态瞬态分析,用对角线方向的相对位移来描述变形。结果显示为开口变形指纹 ODF,并作为稳固性和感知质量的评估标准。通过对变形的时间历史应用主成分分析 (PCA),可以确定主要变形模式 (DDP)。DDP 意味着,在给定的铺层时间历程中,50% 以上的车身变形状态彼此相似。本文对与这种主要变形模式(DDP)相关的力进行了更深入的分析。该分析的新特点是考虑了车轮悬架和修剪后车身之间的所有作用力(共 54 个)。根据力分析的结果,开发了一种新的等效静载荷(ESL)创建程序。最后,通过自动创建程序,展示了如何将新的 ESL 集成到虚拟车辆开发中。
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