| 1. | Passive damping of sma hybrid composite lamina
混杂复合材料单层的被动阻尼 |
| 2. | Study on properties of uhmwpe fiber carbon fiber hybrid composites
碳纤维混杂复合材料性能研究 |
| 3. | Interfacial control of ceramics resin fibers super - hybrid composite
纤维超混杂复合材料的界面控制 |
| 4. | Study on stress concentrations in an intraply hybrid composite sheet
层内混杂复合材料应力集中问题的研究 |
| 5. | Stress redistribution around a broken fiber in an intermingled hybrid composite sheet
层内混杂复合材料断裂纤附近的应力重分布 |
| 6. | In case one third of ramie fiber ( rf ) is replaced by glass fiber ( gf ) , the tensile strength and elastic modulus are increased to 117 . 7 mpa , 4 . 85 gpa ; flexural strength and modulus increased to 31 . 5 mpa and 3 . 65 gpa respectively
芒麻纤维与玻璃纤维的用量比为2 : l时,芒麻玻纤lldpe混杂复合材料的拉伸强度和弹性模量由未加入玻纤时的引二mpa 、 l 17gpa提高到117 7mpa , 4 |
| 7. | Fiber / resin / aluminum alloy laminated composites is a kind of interlaminar superhybrid composite material developed by laminating fiber , resin and aluminum alloy . it has not only the property of polymer composites but also that of aluminum alloy
纤维树脂铝合金叠层复合材料是由纤维、树脂、铝合金叠层复合而成的层间超混杂复合材料,它既保持了树脂复合材料的性能又兼具铝合金的性能。 |
| 8. | Carbon fiber t300 was chosen as a co - hybrid fiber , and two different kinds uhmwpe fiber / t300 hybrid composites are prepared in both inner - laminar and inter - laminar styles . the inter - laminar hybrid composites exhibited better adhesion than the inner - laminar ones . for the optimized system dc88 / t300 / ve , the ilss reached 42 . 5mpa
在混杂实验部分,研究了纤维状况(纤维种类、处理与未处理) 、混杂方式、含胶量等对混杂结果的影响;借助于sem以及建立的混杂模型对混杂机理进行了分析;对混杂复合材料进行了密度和耐湿热性测试。 |
