研究了孔隙对碳纤维增强环氧树脂基复合材料层合板[(±45)/O4/(0,90)/O2]s的静态层间剪切强度和层间剪切疲劳性能的影响.采用不同的热压罐压力制备了孔隙率为0.4%~6.6%的试样.采用显微照相法和图像分析技术对孔隙率和孔隙的微观形貌进行了分析.研究结果表明,随着热压罐压力的降低,大孔隙(S>7.85×10-3mm2)所占的比例逐渐增加,平均孔隙率增加.在孔隙率为0.4%~6.6%时,每增加1%,复合材料层压板的层间剪切强度下降2.4%.随着孔隙率的增加,层压板的疲劳寿命降低.与静态试验相比,孔隙率对层压板疲劳性能的影响比对静态性能的影响大.大孔隙的存在促进了疲劳裂纹的产生和扩展.
参考文献
| [1] | 刘玲,路明坤,张博明,等.孔隙率对碳纤维复合材料超声衰减系数和力学性能的影响[J].复合材料学报,2004,21(5):116-121.Liu Ling,Lu Mingkun,Zhang Boming,et al.Effects of porosity on the ultrasonic absorption coefficient and mechanical strength of carbon/epoxy composites[J].Acta Materiae Compositae Sinica,2004,21(5):116-121. |
| [2] | Bureau M N,Denault J.Fatigue resistance of continuous glass fiber/polypropylene composites:Consolidation dependence[J].Composite Science and Technology,2004,64(12):1785 1794. |
| [3] | Costa M L,Almeida S F M,Rezende M C.The influence of porosity on the interlaminar shear strength of carbon/epoxy and carbon/bisrualeimide fabric laminates[J].Composite Science and Technology,2001,61(14):2101-2108. |
| [4] | Costa M L,Almeida S F M,Rezende M C.Critical void content for polymer composite laminates[J].AIAA Journal.2005,43(6):1336-1341. |
| [5] | Wisnom M R,Reynolds T,Gwillam N.Reduction in interlaminar shear strength by discrele and distributed voids[J].Composite Science and Technology,1996,56(1):93-101. |
| [6] | Olivier P,Cottu J P,Ferret B.Effects of cure cycle pressure and voids on some mechanical properties of carbon/epoxy laminates[J].Composites,1995,26(7):509-515. |
| [7] | Hagstrand P O,Bonjour F,Mason J A E.The influence of void content on the structural flexural performance of unidirectional glass fibre reinforced polyprolylene composites[J].Compos Part A:Appl S,2005,36(5):705-714. |
| [8] | Suarez J C,Molleda F,Giiemes A.Void content in carbon fiber/epoxy resin composites and its effects on compressive properties[C]// Miravete A.9th International Conference on Composite Materials:Properties and Applications.Spain:Universidad Politecnica,1993:589-596. |
| [9] | Cinquin J,Triquenaux V,Rousne Y.Porosity influence on organic composite material mechanical properties[C]// 16th International Conference on Composite Materials.Kyoto:[s.n.],2007. |
| [10] | Ricotta M,Quaresimin M,Talreja R.Mode I strain energy release rate in composite laminates in the presence of voids[J].Composites Science and Technology,2008,68(13):2616 -2623. |
| [11] | Olivier P A,Mascaro B,Margueres P,Collombet F.CFRP with voids:Ultrasonic characterization of localized porosity,acceptance criteria and mechanical characteristics[C]//16th International Conference on Composite Materials.Kyoto:[s.n.],2007. |
| [12] | Rizov V I.Voids and their effects on the fatigue fracture behavior of long glass fiber reinforced injection molded polypropylene[C]// 12th European Conference on Composite Materials.Biarritz:[s.n.],2006. |
| [13] | Chambers A R,Earl J S,Squires C A,et al.The effect of voids on the flexural fatigue performance of unidirectional carbon fibre composites developed for wind turbine applications[J].International Journal of Fatigue,2006,28(10):1389-1398. |
| [14] | Almeida S F M,Nero Z S N.Effects of void content on the strength of composite laminates[J].Composite Structures,1994,28(2):139-148. |
| [15] | Costa M L,Rezende M C,Almeida S F M.Effect of void content on the moisture absorption in polymeric composites[J].Polymer-Plastics Technology and Engineering,2006,45(6):691-698. |
| [16] | Thomason J L.The interface region in glass fibre-reinforced epoxy resin composites 2:Water absorption,voids and interface[J].Composites,1995,26(7):477-485. |
| [17] | Mouritz A P.Ultrasonic and interlaminar properties of highly porous composites[J].Journal of Composite Materials,2000,34(3):218-239. |
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