Damping capacity of the Al matrix composite reinforced with SiC particle and TiNi fiber
Imitating the structure of steel-reinforced concrete, a composite coupling good damping capacity and mechanical property was fabricated by pressure infiltration progress. The aluminum (Al) matrix composite was hybrid reinforced by 20% volume fraction of SiC particle (SiCp) and 20% volume fraction of...
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De Gruyter
2016-03-01
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| Series: | Science and Engineering of Composite Materials |
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| Online Access: | https://doi.org/10.1515/secm-2014-0022 |
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doaj-b7cfd7f686b24b0689a3b71adbc4ed102021-09-05T14:00:30ZengDe GruyterScience and Engineering of Composite Materials0792-12332191-03592016-03-0123217918510.1515/secm-2014-0022Damping capacity of the Al matrix composite reinforced with SiC particle and TiNi fiberHu Jie0Wu GaohuiZhang Qiang1Gou Huasong2School of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001, ChinaSchool of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001, ChinaSchool of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001, ChinaImitating the structure of steel-reinforced concrete, a composite coupling good damping capacity and mechanical property was fabricated by pressure infiltration progress. The aluminum (Al) matrix composite was hybrid reinforced by 20% volume fraction of SiC particle (SiCp) and 20% volume fraction of TiNi fiber (TiNif). The damping capacity of the composite in the temperature range from 30°C to 290°C was studied using a dynamic mechanical analyzer (DMA). Due to the B19′→B2 reverse martensitic transformation in TiNif, a damping peak showed up in the heating process. Furthermore, both the hysteretic effect of the martensite/variants interfaces in TiNif and the weak bonding interface between SiCp and TiNif were attributed to the high damping capacity of the composite. After tension deformation, a compressive stress was formed in the composite in the heating process. With the help of compressive stress, the value of the damping peak was much higher than before, since the movement of dislocation in the Al matrix was easier.https://doi.org/10.1515/secm-2014-0022al matrix compositedamping capacitydmasic particletini fiber |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Hu Jie Wu Gaohui Zhang Qiang Gou Huasong |
| spellingShingle |
Hu Jie Wu Gaohui Zhang Qiang Gou Huasong Damping capacity of the Al matrix composite reinforced with SiC particle and TiNi fiber Science and Engineering of Composite Materials al matrix composite damping capacity dma sic particle tini fiber |
| author_facet |
Hu Jie Wu Gaohui Zhang Qiang Gou Huasong |
| author_sort |
Hu Jie |
| title |
Damping capacity of the Al matrix composite reinforced with SiC particle and TiNi fiber |
| title_short |
Damping capacity of the Al matrix composite reinforced with SiC particle and TiNi fiber |
| title_full |
Damping capacity of the Al matrix composite reinforced with SiC particle and TiNi fiber |
| title_fullStr |
Damping capacity of the Al matrix composite reinforced with SiC particle and TiNi fiber |
| title_full_unstemmed |
Damping capacity of the Al matrix composite reinforced with SiC particle and TiNi fiber |
| title_sort |
damping capacity of the al matrix composite reinforced with sic particle and tini fiber |
| publisher |
De Gruyter |
| series |
Science and Engineering of Composite Materials |
| issn |
0792-1233 2191-0359 |
| publishDate |
2016-03-01 |
| description |
Imitating the structure of steel-reinforced concrete, a composite coupling good damping capacity and mechanical property was fabricated by pressure infiltration progress. The aluminum (Al) matrix composite was hybrid reinforced by 20% volume fraction of SiC particle (SiCp) and 20% volume fraction of TiNi fiber (TiNif). The damping capacity of the composite in the temperature range from 30°C to 290°C was studied using a dynamic mechanical analyzer (DMA). Due to the B19′→B2 reverse martensitic transformation in TiNif, a damping peak showed up in the heating process. Furthermore, both the hysteretic effect of the martensite/variants interfaces in TiNif and the weak bonding interface between SiCp and TiNif were attributed to the high damping capacity of the composite. After tension deformation, a compressive stress was formed in the composite in the heating process. With the help of compressive stress, the value of the damping peak was much higher than before, since the movement of dislocation in the Al matrix was easier. |
| topic |
al matrix composite damping capacity dma sic particle tini fiber |
| url |
https://doi.org/10.1515/secm-2014-0022 |
| work_keys_str_mv |
AT hujie dampingcapacityofthealmatrixcompositereinforcedwithsicparticleandtinifiber AT wugaohui dampingcapacityofthealmatrixcompositereinforcedwithsicparticleandtinifiber AT zhangqiang dampingcapacityofthealmatrixcompositereinforcedwithsicparticleandtinifiber AT gouhuasong dampingcapacityofthealmatrixcompositereinforcedwithsicparticleandtinifiber |
| _version_ |
1717811801299615744 |