防爬緩沖裝置中薄壁管的準靜態(tài)壓潰研究

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摘 要  本文針對防爬緩沖裝置中的薄壁管進行了準靜態(tài)壓潰試驗和仿真分析，相比金屬薄壁管，復合材料薄壁管可減重40%，比吸能提高17%。并對復合材料薄壁管組件應用在防爬緩沖裝置中，進行了初步設計和仿真，對整體結構可以有效降低質量，提高吸能效率，更好的保護乘客的生命安全。

關鍵詞  防爬緩沖裝置; 薄壁管; 準靜態(tài)壓潰

ABSTRACT In this paper， the quasi-static crushing test and simulation analysis of the thin-walled tube in the anti-climbing buffer device are carried out. Compared with the metal thin-walled tube， the composite thin-walled tube can reduce weight by 40% and increase specific energy absorption by 17%. The composite thin-walled tube assembly is applied in the anti-climbing buffer device， and the preliminary design and simulation are carried out. The overall structure can effectively reduce the mass， improve the energy absorption efficiency， and better protect the life safety of passengers.

KEYWORDS anti-climbing buffers; thin-walled tube; quasi-static crushing

1 引言

被動安全防護技術一般是將沖擊能量轉化為被動防護裝置的塑性變形能量，從而保護車體乘客區(qū)不發(fā)生大的變形或結構的損壞，最大限度降低事故破壞程度。（剩余5424字）