Mechanism of Crack Stopping by Weak Fiber-Matrix Interface in Unidirectional Composites
A mechanism of crack stopping by weak fiber-matrix interface in unidirectional composite is specified. The asymptotic analysis of stress state near the elongated elliptical hole in orthotropic plate has shown that splitting at this hole occurs mainly due to shear stresses along the fibers. These she...
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| Veröffentlicht in: | Mechanics of composite materials Jg. 61; H. 3; S. 489 - 500 |
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01.07.2025
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| Abstract | A mechanism of crack stopping by weak fiber-matrix interface in unidirectional composite is specified. The asymptotic analysis of stress state near the elongated elliptical hole in orthotropic plate has shown that splitting at this hole occurs mainly due to shear stresses along the fibers. These shear stresses reach the highest value at the hole contour and depend weakly on the degree of material elastic properties anisotropy. Analyzing the highest values of stresses near the hole, it is possible to estimate the appropriate material characteristics for the crack stopping mechanism realization. The role of the remaining after splitting notch was considered. It was obtained that the real stress concentration factor at hole in unidirectional composites after splitting is not higher than 2. This value occurs near the remaining shallow notch and is several times lower, than the regular theoretical stress concentration factor in plate near circular or elliptical hole, determined numerically or analytically. |
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| AbstractList | A mechanism of crack stopping by weak fiber-matrix interface in unidirectional composite is specified. The asymptotic analysis of stress state near the elongated elliptical hole in orthotropic plate has shown that splitting at this hole occurs mainly due to shear stresses along the fibers. These shear stresses reach the highest value at the hole contour and depend weakly on the degree of material elastic properties anisotropy. Analyzing the highest values of stresses near the hole, it is possible to estimate the appropriate material characteristics for the crack stopping mechanism realization. The role of the remaining after splitting notch was considered. It was obtained that the real stress concentration factor at hole in unidirectional composites after splitting is not higher than 2. This value occurs near the remaining shallow notch and is several times lower, than the regular theoretical stress concentration factor in plate near circular or elliptical hole, determined numerically or analytically. |
| Author | Vlasov, D. D. Polilov, A. N. |
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| Cites_doi | 10.1002/adma.200803322 10.1016/j.compstruct.2018.07.129 10.1016/j.compositesb.2021.108903 10.1016/j.engfracmech.2014.02.026 10.1038/natrevmats.2016.7 10.3103/S002565442008004X 10.1038/s41467-024-53850-w 10.3390/cryst12060850 10.1098/rspa.1964.0248 10.1007/978-981-10-9017-2_8 10.1007/BF00605067 10.3390/polym13162764 10.1016/j.engfracmech.2024.109994 10.1016/j.jmps.2023.105326 10.1016/j.triboint.2024.109764 |
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| Keywords | splitting delamination polymer matrix strength reduction factor (SRF) crack stress concentration factor (SCF) weak interface composite material elliptical hole |
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| References | YuN Rabotnov (10288_CR5) 1979 AN Polilov (10288_CR10) 1976; 6 Z Zhengding (10288_CR6) 2024; 197 ST Mileiko (10288_CR17) 1981; 3 AN Polilov (10288_CR4) 1974; 1 ST Mileiko (10288_CR18) 1997; 12 AN Polilov (10288_CR20) 2014; 1 10288_CR2 AN Polilov (10288_CR8) 1975; 4 EA Artamonova (10288_CR13) 2020; 55 M Sistaninia (10288_CR19) 2014; 130 F Barthelat (10288_CR23) 2016; 1 X Yang (10288_CR24) 2021; 13 AV Malakhov (10288_CR25) 2013; 4 10288_CR26 ME Launey (10288_CR21) 2009; 21 J Cook (10288_CR1) 1964; 282 10288_CR27 F Paris (10288_CR15) 2021; 70 10288_CR29 K Sanjeev (10288_CR31) 2018; 204 MT Aranda (10288_CR7) 2023; 178 JE Gordon (10288_CR3) 2003 A Bussiba (10288_CR11) 2022; 12 S Yu (10288_CR22) 2024; 15 E Jungstedt (10288_CR28) 2024; 300 10288_CR12 AN Polilov (10288_CR9) 1975; 5 10288_CR14 10288_CR30 ST Mileiko (10288_CR16) 1981; 2 10288_CR32 |
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| SubjectTerms | Ceramics Characterization and Evaluation of Materials Chemistry and Materials Science Classical Mechanics Composites Cracks Elastic analysis Elastic anisotropy Elastic properties Fiber-matrix interfaces Fractures Glass Interfaces Materials Science Natural Materials Orthotropic plates Shear stress Solid Mechanics Splitting Stress analysis Stress concentration Stress state Unidirectional composites |
| Title | Mechanism of Crack Stopping by Weak Fiber-Matrix Interface in Unidirectional Composites |
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