Experimental and numerical crashworthiness investigation of 3D printing carbon fiber reinforced nylon origami tubes

Author:

Jiang Zhiyu1,Zhao Jian12ORCID,Chen Weidong1,Lv Huanlin3

Affiliation:

1. School of Textile and Material Engineering Dalian Polytechnic University Dalian China

2. State Key Laboratory of Structural Analysis of Industrial Equipment Dalian University of Technology Dalian Liaoning China

3. School of Information Science and Engineering Dalian Polytechnic University Dalian China

Abstract

AbstractIn this article, the crashworthiness performance of 3D printed origami tubes with variable thickness and different printing angles are investigated. First, experimental results showed that, compared with the traditional equal thickness origami tubes, the initial peak crushing force of variable thickness origami tubes (VTOT) was reduced by 41% and the specific energy absorption (SEA) had an improvement of 22%. Then, the energy absorption (EA) capacity of 3D printed origami tubes at different printing angles was measured and analyzed experimentally. It can be concluded that smaller print angles provide better EA, and the larger print angles result in a significant increase in layer‐to‐layer shear under quasi‐static axial loads, which makes the component more susceptible to buckling and cracking. Finally, the finite element method was constructed through Abaqus/Explicit to study the crashworthiness of VTOT under different mean thickness and the thickness difference in detail. As the mean thickness increases, the load‐carrying capacity and EA capacity increase during the crushing process, but the VTOT with a mean thickness of 1.2 mm has the highest SEA and CLE. The larger thickness differences can significantly improve the EA properties of the VTOT through the changing of the deformation mode.Highlights Both experimental and numerical methods were used to study origami tubes with varying thicknesses. Origami tubes printed at 0° have a higher energy absorption capacity. Variable thickness origami tubes improve the crashworthiness of traditional origami tubes.

Funder

Natural Science Foundation of Liaoning Province

Publisher

Wiley

Subject

Materials Chemistry,Polymers and Plastics,General Chemistry,Ceramics and Composites

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