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| V.35,no.4,Dec 2023 |
| https://doi.org/10.5764/TCF. |
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| Journal |
Textile Coloration and Finishing |
Year / Vol.,
Issue, Month |
2016 / V.28,no.4,Dec |
| Title |
Transverse Low Velocity Impact Failure Behavior of Triaxial Braided Composite Tube with Different Braiding Angles |
| Authors |
Ji-hyun Sim*, Sung-min Park, Ji-hye Kim, Dong-woo Shin, Jin-sung Chon1, Jae-kwan Kim1 and Jin-Seok Bae2 |
| Institution/Affiliations |
DYETEC, 1T4L, 2Kyungpook National University |
| Pages/Total page |
pp.246 ~ 252 / 7 |
| Language |
Korean |
| Abstract |
In comparison to metal alloys, braided composite features a high impact resistance
and crash energy absorption potential, and also it still remained competitive stiffness
and strength properties. Braiding angle is one of the most important parameters
which affect the mechanical behaviors of braided composite. This paper presents transverse
low velocity impact failure behavior analysis on the carbon 3D triaxial braided composite
tube with the braiding angle of 20¨¬, 50¨¬ and 80¨¬. The flexural behaviour of 3D
triaxial braided composite tube under bending loads was studied by conducting quasistatic
three point bending test. Also, the low velocity impact responses of the braided
composite tubes were also tested to obtain load-displacement curves and energy absorption. Consequently, the increase of the braided angle, the peak load also increases owing
to the bigger bending stiffness. |
| Keywords |
triaxial braided composite, braiding angle, transverse impact, failure behavior,
composite tube |
| Download |
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| Reference |
http://www.koreascience.or.kr/article/ArticleFullRecord.jsp?cn=OSGGBT_2016_v28n4_246&ordernum= |
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