电力建设
電力建設
전력건설
ELECTRIC POWER CONSTRUCTION
2014年
11期
79-84
,共6页
吴斌峰%孙清%李亮%王虎长%赵雪灵
吳斌峰%孫清%李亮%王虎長%趙雪靈
오빈봉%손청%리량%왕호장%조설령
E玻璃纤维%玻璃钢纤维复合材料(GFRP)%面内剪切%层间剪切%试验研究
E玻璃纖維%玻璃鋼纖維複閤材料(GFRP)%麵內剪切%層間剪切%試驗研究
E파리섬유%파리강섬유복합재료(GFRP)%면내전절%층간전절%시험연구
E-glass fiber%glass fiber reinforced polymer (GFRP)%in-plane shear%interlaminar shear%experimental study
为了探究E玻璃纤维增强环氧树脂基复合材料(E-glass fiber reinforced polymer,E-GFRP)的剪切性能,对E-GFRP进行了±45°拉伸试验、45°偏轴拉伸试验和层间剪切强度试验,研究了E-GFRP的面内(纵横)剪切强度、面内(纵横)剪切模量和层间剪切强度;探讨了E-GFRP剪切破坏的特征。依据现有的多种复合材料计算模型对试件的面内剪切模量进行计算并与试验结果对比,比较各计算模型的预测效果。结果表明:与45°偏轴拉伸试验相比,±45°轴向拉伸试验测定E-GFRP材料的剪切性能参数更可靠;各模型给出的面内弹性剪切模量预测值中,哈尔平-蔡(Halpin-Tsai)模型和王震鸣推荐公式的预测值与试验值吻合程度最好。
為瞭探究E玻璃纖維增彊環氧樹脂基複閤材料(E-glass fiber reinforced polymer,E-GFRP)的剪切性能,對E-GFRP進行瞭±45°拉伸試驗、45°偏軸拉伸試驗和層間剪切彊度試驗,研究瞭E-GFRP的麵內(縱橫)剪切彊度、麵內(縱橫)剪切模量和層間剪切彊度;探討瞭E-GFRP剪切破壞的特徵。依據現有的多種複閤材料計算模型對試件的麵內剪切模量進行計算併與試驗結果對比,比較各計算模型的預測效果。結果錶明:與45°偏軸拉伸試驗相比,±45°軸嚮拉伸試驗測定E-GFRP材料的剪切性能參數更可靠;各模型給齣的麵內彈性剪切模量預測值中,哈爾平-蔡(Halpin-Tsai)模型和王震鳴推薦公式的預測值與試驗值吻閤程度最好。
위료탐구E파리섬유증강배양수지기복합재료(E-glass fiber reinforced polymer,E-GFRP)적전절성능,대E-GFRP진행료±45°랍신시험、45°편축랍신시험화층간전절강도시험,연구료E-GFRP적면내(종횡)전절강도、면내(종횡)전절모량화층간전절강도;탐토료E-GFRP전절파배적특정。의거현유적다충복합재료계산모형대시건적면내전절모량진행계산병여시험결과대비,비교각계산모형적예측효과。결과표명:여45°편축랍신시험상비,±45°축향랍신시험측정E-GFRP재료적전절성능삼수경가고;각모형급출적면내탄성전절모량예측치중,합이평-채(Halpin-Tsai)모형화왕진명추천공식적예측치여시험치문합정도최호。
To study the shear properties of the E-glass fiber reinforced polymer (E-GFRP),the ±45 °tensile test,the 45 °off-axis tensile test and the interlaminar shear strength test were carried out on the E-GFRP.The in-plane (vertical and horizontal)shear strength,in-plane (vertical and horizontal)shear modulus and interlaminar shear strength of the E-GFRP material were studied.And the characteristics of the E-GFRP material shear failure were discussed.According to the existing calculation models for composite materials,the in-plane shear modulus of specimens were calculated and compared with the test results,to compare the prediction effect of each calculation model.The results show that the shear property parameters of the E-GFRP measured in the ±45 °tensile test are more reliable than those measured in the 45 °off-axis tensile test;among all the models,the predictive values of Halpin-Tsai prediction model and the formula recommended by Zhenming Wang agree well with the experimental data.