Dynamic tensile impact properties of aramid (Technora(R)) and UHMWPE (DC851) fiber bundles were studied at two high strain rates by means of reflecting type Split Hopkinson Bar, and stress-strain curves of fiber yarns at different strain rates were obtained. Experimental results show that the initial elastic modulus, failure strength and unstable strain of aramid fiber yarns are strain rate insensitive, whereas the initial elastic modulus and unstable strain of UHMWPE fiber yarns are strain rate sensitive. A fiber-bundle statistical constitutive equation was used to describe the tensile behavior of aramid and UHMWPE fiber bundles at high strain rates. The good consistency between the simulated results and experimental data indicates that the modified double Weibull function can represent the tensile strength distribution of aramid and UHMWPE fibers and the method of extracting Weibull parameters from fiber bundles stress-strain data is valid.
参考文献
| [1] | V.P.W. Shim;C.T. Lim;K.J. Foo .Dynamic mechanical properties of fabric armour[J].International journal of impact engineering,2001(1):1-15. |
| [2] | SHIM V P W;TAN VBC;TAY TE .Modelling deformation and damage characteristics of woven fabric under small projectile impact[J].International Journal of Impact Engineering,1995,16(04):585-605. |
| [3] | PARGA-LANDA B;HERNANDEZ-OLIVARES F .An analytical model to predict impact behaviour of soft armours[J].International Journal of Impact Engineering,1995,16(03):455-466. |
| [4] | CUNNIFF P M .An analysis of the system ects in woven fabrics under ballistic impact[J].Textile Research Journal,1992,62(09):495-509. |
| [5] | CHI Z F;CHOU T W;SHEN G Y .Determination of single fiber strength distribution from fiber bundle testings[J].Journal of Materials Science,1984,19:3319-3324. |
| [6] | WATSON A S;SMITH R L .An examination of statistical theories for fibrous materials in the light of experimental data[J].Journal of Materials Science,1985,20:3260-3270. |
| [7] | GODA K;FUKUNAGA H .The evaluation of the strength distribution of silicon carbide and alumina fibers by a multi-modal Weibull distribution[J].Journal of Materials Science,1986,21:4475-4480. |
| [8] | PHANI K K .Evaluation of single-fiber strength distribution from fiber bundle strength[J].Journal of Materials Science,1988,23:941-945. |
| [9] | Wilson DM. .STATISTICAL TENSILE STRENGTH OF NEXTEL(TM) 610 AND NEXTEL(TM) 720 FIBRES[J].Journal of Materials Science,1997(10):2535-2542. |
| [10] | ANDERSONS J;JOFFE R;HOJO M et al.Glass fiber strength distribution determined by common experimental methods[J].Composites Science and Technology,2002,62:131-145. |
| [11] | standard test method for tensile strength and Young's modulus for high-modulus single-filament materials[S].,1989. |
| [12] | XIA Y M;YUAN J M;YANG B C .A statistical model and experimental study of the strain-rate dependence of the strength of fibers[J].Composites Science and Technology,1994,52:499-504. |
| [13] | WANG Y;XIA Y M .The effect of strain rate on the mechanical behavior of kevlar fiber bundles:an experimental and theoretical study[J].Composites Part A:Applied Science and Manufacturing,1998,29A:1411-1415. |
| [14] | Wen Huang;Yang Wang;Yuanming Xia .Statistical dynamic tensile strength of UHMWPE-fibers[J].Polymer: The International Journal for the Science and Technology of Polymers,2004(11):3729-3734. |
| [15] | DANIELS H E .The statistical theory of the strength of bundles of threads[J].Proceedings of the Royal Society of London,1945,A183:405-435. |
| [16] | COLEMAN B D .On the strength of classical fiber and fiber bundles[J].Journal of the Mechanics and Physics of Solids,1958,7:60-70. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%