| 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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| 作者姓名: | M.SALEHI S.M.H.MIRBAGHERI A.JAFARI RAMIANI |
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| 作者单位: | Department of Materials and Metallurgical Engineering |
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| 基金项目: | This work was supported by the Metal Foam Group of Amirkabir University(MFGAU)through Grant No.110-mir-13990531.The authors are grateful to Nowin Rahyaft Advanced Sciences and Technologies Knowledge Based Company for their support in casting and cutting the metal foams. |
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| 摘 要: | 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...
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| 关 键 词: | 功能梯度泡沫填充管 落锤冲击 变形行为 比吸能 耐撞性 |
| 收稿时间: | 1 April 2020 |
Efficient energy absorption of functionally-graded metallic foam-filled tubes under impact loading |
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| M.SALEHI,S.M.H.MIRBAGHERI,A.JAFARI RAMIANI.Efficient energy absorption of functionally-graded metallic foam-filled tubes under impact loading[J].Transactions of Nonferrous Metals Society of China,2021,31(1):92-110. |
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| Authors: | M SALEHI SMH MIRBAGHERI A JAFARI RAMIANI |
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| Affiliation: | Department of Materials and Metallurgical Engineering, Amirkabir University of Technology, Tehran 15875-4413, Iran |
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| Abstract: | 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. |
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| Keywords: | functionally-graded foam-filled tube drop-weight impact deformation behavior specific energy absorption crashworthiness |
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