以粘胶纤维为原料,通过碳化、活化处理工艺制备活性碳纤维,采用XRD对其微观结构进行表征,并对其吸波性能进行测试,分析了纤维的微观结构与吸波性能的关系.结果表明,制备工艺对活性碳纤维的微观结构和吸波性能有较大影响.在其它工艺参数保持不变的条件下,随碳化温度的升高,活性碳纤维的石墨化程度和吸波性能均先提高后降低;随活化时间的延长,活性碳纤维内部结构趋向不规整化,对电磁波的损耗能力增强.在活化时间为18min、活化温度为900℃、碳化时间为60min、碳化温度为425℃条件下制备的活性碳纤维的吸波性能最佳,含0.6%(质量分数)纤维的树脂基复合材料在6.3~13.4GHz频率范围内对电磁波有-10dB以下的吸收,在8.5GHz时取得的最大反射衰减为-27.3dB.
ACFs are prepared from viscose fibers by carbonization and activation processes.Microstructure and microwave absorbing properties of the resultant ACFs are investigated by XRD and a vector network analyzer,and the relationship between fiber microstructure and absorption effect is analyzed.The results show that ACF microstructure and absorbing performances are greatly affected by preparation processes.When the other processing parameters are constants,ACF crystallization degree and absorbing properties rise at first and then fall with the carbonization temperature increasing.ACF microstructure tends to be irregular,and absorbing effects are improved with the activation time extending.ACFs prepared at the conditions (activation time is 18min,activation temperature is 900℃,carbonization time is 60min,carbonization temperature is 425℃) show the optimum absorbing effect.The epoxy resin composite with ACF content of 0.6wt% has a reflection loss below-10dB in the frequency range from 6.3GHz to 13.4GHz,and the maximum absorption reaches-27.3dB at 8.5GHz.
参考文献
| [1] | 钟华;李自力.隐身技术--军事高技术的"王牌"[M].北京:国防工业出版社,1999 |
| [2] | 邢丽英.隐身材料[M].北京:化学工业出版社,2004 |
| [3] | 张晏清,邱琴,张雄.六角晶系钡铁氧体与锶铁氧体吸波性能的比较[J].材料导报,2009(10):5-7. |
| [4] | Wei Xie;Hai-Feng Cheng;Zeng-Yong Chu;Yong-Jiang Zhou;Hai-Tao Liu;Zhao-Hui Chen .Effect Of Fss On Microwave Absorbing Properties Of Hollow-porous Carbon Fiber Composites[J].Materials & design,2009(4):1201-1204. |
| [5] | Zhigang Fang;Chusen Li;Jiayan Sun .The electromagnetic characteristics of carbon foams[J].Carbon: An International Journal Sponsored by the American Carbon Society,2007(15):2873-2879. |
| [6] | Haiyan Lin;Hong Zhu;Hongfan Guo;Liufang Yu .Microwave-absorbing properties of Co-filled carbon nanotubes[J].Materials Research Bulletin,2008(10):2697-2702. |
| [7] | Junhua Wu;D.D.L.Chung .Increasing the electromagnetic interference shielding effectiveness of carbon fiber polymer-matrix composite by using activated carbon fibers[J].Carbon: An International Journal Sponsored by the American Carbon Society,2002(3):445-467. |
| [8] | 马咸尧.X射线衍射与电子显微分析基础[M].武汉:华中理工大学出版社,1993 |
| [9] | Andrew K.Kercher;Dennis C.Nagle .Microstructural evolution during charcoal carbonization by X-ray diffraction analysis[J].Carbon: An International Journal Sponsored by the American Carbon Society,2003(1):15-27. |
| [10] | 戴星,朱本松.活化工艺对活性炭纤维结构的影响[J].北京服装学院学报(自然科学版),2002(02):11-15. |
| [11] | 杨海丽,桑晓明.粘胶基活性碳纤维的微观结构[J].河北理工学院学报,2001(02):57-61. |
| [12] | 吴明铂,李中树,冯永训,徐金波,张建,顾学林,赵海培,祝威,丁慧,李盛胜.粘胶基活性炭纤维的孔结构调控[J].炭素技术,2008(06):13-17. |
| [13] | Andrew K.Kercher;Dennis C.Nagle .Microstructural evolution during charcoal carbonization by X-ray diffraction analysis[J].Carbon: An International Journal Sponsored by the American Carbon Society,2003(1):15-27. |
| [14] | 张永德.量子力学[M].北京:科学出版社,2002 |
| [15] | 华中,王月梅.PAN基炭纤维中SP2杂化的C-C原子键距对电阻率影响的研究[J].炭素,2003(03):39-41. |
| [16] | 田莳.材料物理性能[M].北京:北京航空航天大学出版社,2001 |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%