复合材料仿生方法从仿生尺度上分为宏观、细观和微观仿生,从仿生对象上分为界面仿生和增强相形貌仿生,从研究手段上分为结构机理仿生、分子化学仿生和矿化工艺仿生.对当前复合材料仿生设计与制造方法进行了回顾与分类,并对各种方法的思想起源,适用范围与优缺点等进行了评述.
参考文献
| [1] | 周本濂 .复合材料仿生研究[J].物理,1991,24(10):577. |
| [2] | 向春霆;范镜泓 .自然复合材料的强韧化机理和仿生复合材料的研究[J].力学进展,1995,24(02):220. |
| [3] | Ahamad A;Mark J E .Biomimetic materials-recent developments in.organic and in-organic hybrids[J].Materials Science and Engineering C,1998,6(06):183. |
| [4] | DIBENEDETTO A T .Tailoring of interfaces in glass reinforced polymer composites:a review[J].Materials Science and Engineering A,2001,302:74. |
| [5] | Almqvist Nils;Thomson Neil H et al.Methods for fabricating and Charactering a new generation of biomimetic materials[J].Materials Science and Engineering C,1999,7(01):37. |
| [6] | 田晓滨;赵晓鹏;周本濂 .短纤维增强复合材料的仿生模型:Ⅰ哑铃状短纤维增强复合材料的应力分析[J].金属学报,1994,30(04):B180. |
| [7] | 赵晓鹏;田晓滨;周本濂 等.短纤维增强复合材料的仿生模型Ⅱ. 弱结合界面的强度理论[J].金属学报,1994,30(04):B187. |
| [8] | 赵晓鹏;周本濂 .短纤维增强复合材料的仿生模型Ⅲ. 脆性基体复合材料中哑铃状纤维的强化作用[J].金属学报,1996,32(04):438. |
| [9] | B. L. Zhou .Bio-inspired study of structural materials[J].Materials science & engineering, C. Biomimetic and supramolecular systems,2000(1):13-18. |
| [10] | Fu S Y;Zhou B L;Lung C W .On the pull out of fibers with fractal tree structure and the inference of strength and fractal toughness of compostes[J].Smart Materials and Structures,1992,1:180. |
| [11] | Fu S Y;Li S H et al.A study on branched structure fiber reinforced composites[J].Scripta Metallurgica et Materialia,1993,29:1541. |
| [12] | Katayama Tsutao;Yamamoto Hidetake;Takimoto Kyozo.Solid-fluid biomimetic composites by considering load dispersion mechanism of cancellous bone structure[J].JSME International Journal Series A:Solid Mechanics and Material Engineering,1999(42):1340. |
| [13] | Vollrath F;Knight D P .Structure and function of the silk production pathway in spider[J].International Journal of Biological Macromolecules,1999,24(2-3):243. |
| [14] | Calvert P D.[M].New York,1996:315. |
| [15] | 戴勇定;沈继英 .生物矿化作用机理[J].动物学杂志,1995,30(05):55. |
| [16] | 胡志国;樊风秋 等.仿生矿化的研究Ⅰ:文石型碳酸钙的形成[J].功能材料,1996,27(05):459. |
| [17] | Wang Chang-an;Huang Yong et al.Biomimetic structure design-a possible approach to change the brittleness pf ceramics in nature[J].Materials Science and Engineering C,2000,11(01):9. |
| [18] | ZHOU B L .The Biomimetic design of worst bonding interface for ceramic matrix composites[J].Composites Engineering,1995,5(05):1261. |
| [19] | Q. L. Feng;F. Z. Cui;G. Pu;R. Z. Wang;H. D. Li .Crystal orientation, toughening mechanisms and a mimic of nacre[J].Materials science & engineering, C. Biomimetic and supramolecular systems,2000(1):19-25. |
| [20] | kokubo T et al.Ceramic-metal and ceramic-polymers prepared by a biomimetic process[J].Composites Part A:Applied Science and Manufacturing,1999,30(04):405. |
| [21] | 周本濂 .材料制备中的非平衡过程[J].材料研究学报,1997,11(06):576. |
| [22] | 王燮.化学科学与生物科学的融合[J].化学通报(印刷版),1994(09):10. |
| [23] | Tillinghast EK;O'Donnell R;Eves D;Calvert E;Taylor J .Water-soluble luminal contents of the gut of the earthworm Lumbricus terrestris L. and their physiological significance.[J].Comparative biochemistry and physiology, Part A. Molecular and integrative physiology,2001(2/3):345-353. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%