What question did this study set out to answer?

This study aims to enhance energy absorption efficiency and reduce initial peak crushing forces in expansion-tube structures.

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May 1, 2026Open Access

Design and Optimization of Expansion-Tube Energy-Absorbing Structures with Gradient Stiffness

Key Points

This study aims to enhance energy absorption efficiency and reduce initial peak crushing forces in expansion-tube structures.
Developed a gradient stiffness expansion-tube design inspired by bamboo characteristics.
Established and validated an LS-DYNA finite element simulation model using experimental results.
Conducted multi-objective optimization analysis on the energy-absorbing structure.
The gradient stiffness design significantly reduced IPCF during energy absorption.
The modified structure improved buffering capacity and specific energy absorption (SEA).

Abstract

Conventional uniform-thickness expansion-tube energy-absorbing structures suffer from excessively high initial peak crushing forces (IPCFs) and sub-optimal energy absorption efficiency. Inspired by the gradient stiffness characteristics of the inter node-to-node structure in Buddha’s Belly Bamboo, this study proposed an expansion-tube energy-absorbing structure design featuring a gradient stiffness. An LS-DYNA finite element simulation model was first established, validated through experimental results, and subsequently subjected to multi-objective optimization. The analysis results demonstrate that the stiffness-gradient expansion-type energy-absorbing structure designed in this study not only effectively reduces the IPCF during energy absorption but also further enhances its buffering and specific energy absorption (SEA).

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