Prediction of Energy Absorption of Al-based FGM Crash Box under Quasi-static and Dynamic Loading

机译：准静态载荷下基于Al基FGM碰撞箱的能量吸收预测

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In this study, simulations of quasi-static and dynamic loading on the Al functionally graded materials (Al FGM) crash boxes are carried out. The FGM crash box is fabricated by heat treatment method. Five different crash boxes, namely FGM0, FGM1, FGM2, FGM3 and FGM4 for the different heat treatment temperatures of 25, 500, 520, 540 and 560°C, respectively are investigated. The simulation results of quasi-static loading test show that FGM1 has the maximum force of 97.515 kN and the highest specific energy absorption (SEA), 33.029 kJ/kg. As for dynamic loading test, FGM3 has recorded the highest maximum force, 59.379 kN and FGM2 has recorded the highest SEA, 24.17 kJ/kg. It can be concluded that the SEA of crash box is increased by introducing FGM concept.

机译：在该研究中，进行了在Al功能梯度材料（Al FGM）碰撞箱上的准静态和动态加载的模拟。 FGM碰撞盒通过热处理方法制造。研究了5种不同的碰撞箱，即用于不同热处理温度为25,500,520,540和560°C的不同热处理温度的FGM0，FGM1，FGM2，FGM3和FGM4。准静态加载试验的仿真结果表明，FGM1具有97.515 kn的最大力和最高的特定能量吸收（海），33.029 kJ / kg。至于动态负载测试，FGM3已录制最大的最大力，59.379 kN和FGM2已录制最高海洋，24.17 kJ / kg。可以得出结论，通过引入FGM概念来增加崩溃箱的海洋。

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《International Conference on Mechanical and Manufacturing Engineering》|2014年||共5页
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M. R. Zainal Abidin; S. Jamian; N. H. Muhd Nor;
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中图分类 TH-53;
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Aluminum (Al); Crash box; Functionally grade material (FGM);

机译：铝（Al）;崩溃箱;功能级别材料（FGM）;

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Prediction of Energy Absorption of Al-based FGM Crash Box under Quasi-static and Dynamic Loading

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