首页|功能梯度金属泡沫填充管在冲击载荷下的高效吸能

功能梯度金属泡沫填充管在冲击载荷下的高效吸能

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研究功能梯度泡沫填充管(FGFTs)在落锤冲击载荷作用下的变形行为和耐撞性.采用液态工艺制备的闭孔泡沫铝、A356合金泡沫和锌泡沫作为轴向梯度填料,用于制备不同构造的单层和多层结构.结果表明,多层泡沫填充管的变形由低强度部位开始,然后通过应力的逐渐增加在高强度部位中扩展.使用更多的A356合金和泡沫铝层可为梯度结构提供更大的比吸能(SEA),而高强度的锌泡沫对碰撞性能没有积极的影响.由泡沫铝和A356合金泡沫组成的梯度结构在准静态和落锤冲击条件下以对称模式发生连续倒塌.使用锌泡沫会引起对称模式和扩展模式倒塌,样品在动态加载下产生更大的局部变形,在准静态加载下产生更大的局部破裂.Al−A356泡沫填充管具有最高的SEA(10 J/g)和最低的初始峰值应力(σmax=10.2 MPa),是最好的轻质耐撞结构.
Efficient energy absorption of functionally-graded metallic foam-filled tubes under impact loading
The deformation behavior and crashworthiness of functionally-graded foam-filled tubes (FGFTs) under drop-weight impact loading were investigated. Closed cell aluminum, A356 alloy and zinc foams fabricated by the liquid state processing were used as axial grading fillers for the manufacture of single-layer and multilayer structures with different configurations. The results indicate that the deformation of multilayer foam filled tubes initiates from the low-strength components, and then propagates in the high-strength components through the gradual increment of stress. The use of more A356 alloy and aluminum foam layers provides greater specific energy absorption (SEA) for the graded structures, whereas the high-strength zinc foam has no positive effect on the crash performance. The progressive collapse of graded structures consisting of the aluminum and A356 alloy foams occurs in a symmetric mode under quasi-static and drop-weight impact conditions. However, the zinc foam causes a combination of symmetric and extension modes as well as greater localized deformation under dynamic loading and greater local rupture in quasi-static loading condition. The Al−A356 foam-filled tubes with a combination of the highest SEA (10 J/g) and the lowest initial peak stress (σmax of 10.2 MPa) are considered as the best lightweight crashworthy structures.

functionally-graded foam-filled tubedrop-weight impactdeformation behaviorspecific energy absorptioncrashworthiness

M.SALEHI、S.M.H.MIRBAGHERI、A.JAFARI RAMIANI

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Department of Materials and Metallurgical Engineering,Amirkabir University of Technology,Tehran 15875-4413,Iran

功能梯度泡沫填充管 落锤冲击 变形行为 比吸能 耐撞性

Metal Foam Group of Amirkabir University (MFGAU) through Grant Noauthors are grateful to Nowin Rahyaft Advanced Sciences and Technologies Knowledge Based Company for their support in castin

110-mir-13990531

2021

10.1016/S1003-6326(20)65480-2

中国有色金属学报(英文版)
中国有色金属学会

中国有色金属学报(英文版)

CSTPCDCSCDSCI
影响因子:1.183
ISSN:1003-6326
年,卷(期):2021.31(1)
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