提高汽车耐撞性的三轴编织碳纤维布碰撞台车试验

Earth and Space 2021 Pub Date : 2021-04-15 DOI:10.1061/9780784483381.020

C. Ruggeri, R. Haluza, J. M. Pereira, S. Miller, C. Bakis, K. Koudela

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引用次数: 2

摘要

美国国家航空航天局格伦研究中心的冲击动力学实验室最近开发了一种气动驱动的碰撞橇，用于研究车辆结构元件的挤压行为。该装置包括可调节的打击块和试样支撑块，其安装在单独的轨道上。与所谓的固定试样支撑的碰撞雪橇相比，这种装置有两个优点:(i)它允许使用不同的仪器对挤压响应进行多次独立测量，(ii)试样支撑可以改变，其反应可以明确测量。本文介绍了实验装置和数据分析方法，并举例说明了台车测量三轴编织碳/环氧复合材料c通道和波纹板的比能量吸收(SEA)的能力。波纹板具有较高的SEA

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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Crash Sled Testing of Triaxially Braided CFRP for Improved Vehicular Crashworthiness

The Impact Dynamics Laboratory at NASA Glenn Research Center recently developed a pneumatically-actuated crash sled for investigating the crush behavior of structural elements for vehicular applications. The apparatus includes an adjustable striker mass and specimen support mass, which are mounted on separate rails. This setup provides two advantages over crash sleds with so-called fixed specimen supports: ( i ) it allows for multiple independent measurements of the crush response using different instruments, and ( ii ) the specimen support can be varied and its reaction can be explicitly measured. This paper describes the experimental setup and data analysis methodology and illustrates the capability of the sled for measuring the specific energy absorption (SEA) of triaxially-braided carbon/epoxy composite C-channels and corrugated plates. The corrugated plate had a higher SEA

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Earth and Space 2021

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