| 泡沫铝-复合泡沫冲击韧度及黏弹性分析 |
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| 引用本文: | 孟进军,王美芬,李东杰,余为. 泡沫铝-复合泡沫冲击韧度及黏弹性分析[J]. 实验力学, 2013, 28(6): 716-722 |
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| 作者姓名: | 孟进军 王美芬 李东杰 余为 |
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| 作者单位: | 徐工机械建设机械分公司履带起重机研究所, 徐州 221004;燕山大学 河北省重型装备与大型结构力学可靠性重点实验室, 秦皇岛 066004;燕山大学 河北省重型装备与大型结构力学可靠性重点实验室, 秦皇岛 066004;燕山大学 河北省重型装备与大型结构力学可靠性重点实验室, 秦皇岛 066004 |
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| 基金项目: | 国家“863”《千吨级超大履带起重机关键技术研究及应用》项目资助(SS2012AA041807),河北省高等学校科学研究计划资助项目(2010166) |
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| 摘 要: | 泡沫铝-复合泡沫互穿相复合材料是一种新型的结构功能一体化材料,在机械、交通、建筑等领域具有重要的应用前景。本文制备了纯泡沫铝及空心玻璃微珠四种体积分数的泡沫铝-复合泡沫试件,通过摆锤冲击实验研究了其冲击韧度,讨论了其断口形貌与结构性能的关系,通过单轴压缩的应力松弛实验研究其黏弹性性能。研究表明:空心玻璃微珠体积分数为10%的泡沫铝-复合泡沫试件的冲击韧度最大,随后其冲击韧度随空心玻璃微珠体积分数的增加而减小;当空心玻璃微珠体积分数较小时,泡沫铝的结构形貌决定了冲击断口的形貌,但当其体积分数达到30%时,空心玻璃微珠的破坏是形成断口形貌的主要原因;复合材料的黏弹性性能随着玻璃微珠体积分数的增加而增大。
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| 关 键 词: | 泡沫铝-复合泡沫 冲击韧度 断口形貌 黏弹性 |
| 修稿时间: | 2013-09-05 |
Impact Toughness and Viscoelasticity Analysis of Foam Al-Syntactic Foam |
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| MENG Jin-jun,WANG Mei-fen,LI Dong-jie and YU Wei. Impact Toughness and Viscoelasticity Analysis of Foam Al-Syntactic Foam[J]. Journal of Experimental Mechanics, 2013, 28(6): 716-722 |
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| Authors: | MENG Jin-jun WANG Mei-fen LI Dong-jie YU Wei |
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| Affiliation: | Crawler Crane R&D Department, XCMG Construction Machinery Co.,Ltd. Building Machinery Co., Xuzhou 221004, China;Key Laboratory of Mechanical Reliability for Heavy Equipments and Large Structures of Hebei Province, Yanshan University, Qinhuangdao 066004, China;Key Laboratory of Mechanical Reliability for Heavy Equipments and Large Structures of Hebei Province, Yanshan University, Qinhuangdao 066004, China;Key Laboratory of Mechanical Reliability for Heavy Equipments and Large Structures of Hebei Province, Yanshan University, Qinhuangdao 066004, China |
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| Abstract: | Foam Al-syntactic foam interpenetrating phase composite is a new type of structure and function integration material that has bright application prospect in field of machinery, transportation, construction etc. In this paper, pure foam aluminum and hollow glass micro bead (HGM) were manufactured, based on which, foam Al-syntactic foam specimens with four kinds of volume fraction were prepared. Their impact toughness was studied by Charpy impact tests, and the relation between fracture morphology and structural properties was discussed. Their viscoelastic properties were studied by uniaxial compression stress relaxation experiments. Experimental results indicate that foam Al-syntactic foam specimens achieve the maximum impact toughness when HGM volume fraction is 10%. Then it decreases with the increase of HGM volume fraction. It is also found that the impact fracture morphology is decided by foam Al structural morphology, when HGM volume fraction is small; but when HGM volume fraction reaches 30%, the fracture of HGM is the dominating reason of fracture morphology formation. Viscoelastic properties of the composite material increase with the increase of hollow glass micro bead volume fraction. |
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| Keywords: | Foam Al-Syntactic foam impact toughness fracture morphology viscoelasticity |
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