Enhancing the Buckling Performance of Thin-Walled Plastic Structures Through Material Optimization.

IF 4.9 3区工程技术 Q1 POLYMER SCIENCE

Polymers Pub Date : 2025-10-07 DOI:10.3390/polym17192697

Alexander Busch, Olaf Bruch, Dirk Reith

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Abstract

Reducing material usage in plastic products is a key lever for improving resource efficiency and minimizing environmental impact. In thin-walled structures subjected to mechanical loading, material efficiency must be achieved without compromising structural performance. In particular, resistance to buckling, a critical failure mode, must be taken into account during product development. Due to the large number of design and process variables, many of which are interdependent, optimization approaches are uncommon in the blow-molded packaging industry. This paper presents a sensitivity-based optimization approach to improve buckling resistance by modifying the product's material distribution. Since the sensitivity is nonlinear and depends on the product's deformation state, various methods are developed and tested to reduce the frame-wise sensitivity data to a single sensitivity vector suitable for optimization. These methods are then tested on common extrusion blow-molded products, achieving improvements in buckling load of up to 60%. This approach is transferable to other thin-walled structures across various engineering domains, offering a pathway toward lightweight yet load-compliant designs.

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通过材料优化提高薄壁塑料结构的屈曲性能。

减少塑料产品的材料使用是提高资源效率和尽量减少对环境影响的关键杠杆。在承受机械载荷的薄壁结构中，必须在不影响结构性能的情况下实现材料效率。特别是，抗屈曲，一个关键的失效模式，必须考虑在产品开发。由于大量的设计和工艺变量，其中许多是相互依存的，优化方法是不常见的吹塑包装行业。本文提出了一种基于灵敏度的优化方法，通过改变产品的材料分布来提高产品的抗屈曲性能。由于灵敏度是非线性的，并且取决于产品的变形状态，因此开发和测试了各种方法来将逐帧灵敏度数据减少到适合优化的单个灵敏度向量。然后在普通的挤压吹塑产品上测试这些方法，实现了高达60%的屈曲载荷的改进。这种方法可应用于各种工程领域的其他薄壁结构，为实现轻量化且符合负载的设计提供了一条途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Polymers POLYMER SCIENCE-

CiteScore

8.00

自引率

16.00%

发文量

4697

审稿时长

1.3 months

期刊介绍： Polymers (ISSN 2073-4360) is an international, open access journal of polymer science. It publishes research papers, short communications and review papers. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Polymers provides an interdisciplinary forum for publishing papers which advance the fields of (i) polymerization methods, (ii) theory, simulation, and modeling, (iii) understanding of new physical phenomena, (iv) advances in characterization techniques, and (v) harnessing of self-assembly and biological strategies for producing complex multifunctional structures.