综述了近年来国内外有关甲虫前翅结构与仿生应用的研究成果及其发展前景.指出前翅是以小柱为中空层的框架式结构,其左右前翅结合部分是一种巧妙的凹凸啮合结构;前翅内存在着网状一小柱结构,这是一种轻量型夹芯层状三合板结构;小柱中的纤维与上下层中的纤维是连续的,可有效增加叠层复合材料的抗剥离强度;一些甲虫前翅的表面具有特殊的生物结构,从而具有一些特殊的功能,如具有减阻、集水或显色功能.结合生命科学的最新研究成果,提出了通过基因组技术生产仿生材料的设想.
参考文献
| [1] | Ma Zuli.Biologic and bionics[M].Tianjin:Tianjin Technology Press,1984:13. |
| [2] | Burte H M,Deusen R L,Hemenger P M,et al.The potential impact of biotechnology on composites[M].Lancaster Pennsylvania:Tech Pub Co Inc,1986:65-68. |
| [3] | 中根猛彦,大林一夫,野村缜,黑泽良彦.原色昆虫大図鑑,第2卷(甲虫篇)[M].东京:北隆信,1978:1-10. |
| [4] | 石井象.二郎.昆虫生理学[M].东京:倍凰馆,1982:40-42. |
| [5] | Youdeowei A.A laboratory manual of entomology[M].Ibadan:Oxford University Press,1977:148-150. |
| [6] | Gulan P J,Cranstion P S.The insects:An outline ofentomology[M].London:Chapman & Holl,1994:22-55. |
| [7] | Gokan N.1996 on the tracheation and distribution of the air sacs in elytra of scarabaeid beetles[J].Memoirs of the Tokyo University of Agriculture,1966,5:56-62. |
| [8] | Zelazny B,Neville A C.Quantitative studies on fibril orientation in beetle endocuticle[J].Insect Physiol,1972,18:2095-2121. |
| [9] | Wainwright S A,Biggs W D,Currey J D,et al.Mechanical design in organisms[M].Princeton:Princeton University Press,1982:158-170. |
| [10] | 陈斌,彭向和,范镜泓.生物自然复合材料的结构特征及仿生复合材料的研究[J].复合材料学报.2000,17(3):59-62.Chen Bin,Peng Xianghe,Fan Jinghong.Microstructure of natural biocomposites and research of biomimetic composites[J].Acta Materials Compositae Sinica,2000,17(3):59-62. |
| [11] | 杨志贤,王卫英,虞庆庆,戴振东.四种甲虫鞘翅的力学参数测定及微结构观测[J].复合材料学报,2007,24(2):92-98.Yang Zhixian,Wang Weiying,Yu Qingqing,Dai Zhendong.Measurements on mechanical parameters and studies on microstructure of elytra in Beetles[J].Acta Materiae Compositae Sinica,2007,24(2):92-98. |
| [12] | Ni Q Q,Chen J X,Kurashiki K,Iwamoto M.Interlaminar reinforcement mechanism in a beetle fore-wing[J].JSME International Journal:Seties C,2001,44(4):1111-1116. |
| [13] | Chen J X,Ni Q Q.Xu Y L,et al.Light weight composite structures in the forewings of beetle[J].Journal of Composite Structures,2007,79(3):331-337. |
| [14] | 陈锦祥,倪庆清,李庆,等."蜂窝-柱子"芯夹层轻量型仿生物复合材料结构[J].复合材料学报,2005,22(2):103-108.Chen Jinxiang,Ni Qingqing,Li Qing.et al.Biomimetic light weight composite structure with honeycomb-trabecula[J].Acta Materiae Compositae Sinica,2005,22(2):103-108. |
| [15] | 陈锦祥,倪庆清.甲虫前翅中的三维复合材料结构[J].复合材料学报,2003,20(6):61-66.Chen Jinxiang,Ni Qingqing.Three dimensional composite structures in the forewing of Beetles[J].Acta Materiae Compositae Sinica,2003,20(6):61-66. |
| [16] | 陈锦祥,倪庆清,徐英莲.甲虫前翅结构中的优化设计[J].复合材料学报,2004,21(5):88-92.Chen Jinxiang,Ni Qingqing,Xu Yinglian.Optimum design in the structures of beetle forewings[J].Acta Materiae Compositae Sinica,2004,21(5):88-92. |
| [17] | Chen J X,Ni Q Q,Endo Y,et al.Fine structure of the trabeculae in the fore-wing of allomyrina dichotoma(Linne) and prosopocoilus inclinatus(Motschulskey)(Coleoptera:Scarabaeidae)[J].Entomologia Siniea,2001,8(2):115-123. |
| [18] | Chen J x,Ni Q Q,Endo Y,et al.Distribution of the trabeculae in the fore-wing of horned beetle,allomyrina dichotoma(Linne)(Coleoptera:Scarabaeidae)[J].Entomologia Sinica,2002,9(1):55-61. |
| [19] | 陈锦祥,倪庆清.一种中间为多边形珊格的夹层板:中国.ZL03 2 30500.1[P].2003-04-21. |
| [20] | Andrew R P,Chris R L.Water capture by a desert beetle[J].Nature,2001,414:33-34. |
| [21] | 虞庆庆,王卫英,戴振东,等.东方龙虱鞘翅微结构及力学性能研究[J].自然科学进展,2006,16(3):365-369.Yu Qingqing,Wang Weiying.Dai Zhendong,et al.Studies on surface textures and mechanical properties of elytra in Cybister[J].Progress of Natural Science,2006,16(3):365-369. |
| [22] | 戴振东,张亚锋,梁醒财,孙久荣.甲虫鞘翅间的锁合机构、联接力及其表面织构效应[J].中国科学C辑:生命科学,2008,38(6):542-549.Dai Zhendong,Zhang Yafeng,Liang Xingcai,Sun Jiurong.The lock mechanism,coupling force and surface texture effects between the forewing of beetle[J].Science in China Press C:Life Science,2008,38(6):542-549. |
| [23] | Liu F,Yin H,Zi J,Chen B,et al.Inconspicuous structural coloration in the elytra of beetles Chlorophila obscuripennis (Coleoptera)[J].Physical Review,2008,77(1):1-4. |
| [24] | 陈锦祥,倪庆清,徐英莲.甲虫前翅仿生复合材料研究的进展[J].纺织学报,2006,27(10):108-111.Chen Jinxiang,Ni Qingqing,Xu Yinglian.Achievement in biomimetic composite structures with fore-wing of beetle[J].Journal of Textile Research,2006,27(10):108-111. |
| [25] | Fiori G.La'sutura'elitrale dei coleotteri[J].In Attidel Congresso Nazionale haliano di Entomologia,1975,10:91-111. |
| [26] | Frantsevich L,Dai Zhengdong,Wang Weiying,et al.Geometry of elytra opening and closing in some beetles (Coleoptera,Polyphaga)[J].The Journal of Experimental Biology,2005,208(16):3145-3158. |
| [27] | 陈斌,彭向和,范镜泓.金龟子外甲壳的纤维增强特征和树枝状分叉纤维结构[J].材料研究学报,2003,17(6):630-636.Chen Bin,Peng Xianghe,Fan Jinghong.Fiber-reinforce characteristics of chafer cuticle and research on structure of branched fiber[J].Chinese Journal of Materials Research,2003,17(6):630-636. |
| [28] | Okazaki J,Ni Q Q,Iwamoto M,Kurashiki K.Research on design of a composite material imitated from the fore-wing of a beetle[C]//Proceedings of Third International Workshop on Green Composites(IWGC-3).Kyoto:[s.n.],2005:91-94. |
| [29] | 孙久荣,程红,丛茜,等.蜣螂(Coprisochus Motschul-sky)减粘脱附的仿生学研究[J].生物物理学报,2001,17(4):785-793.Sun Jiurong,Cheng Hong,Cong Qian,et al.Bionic research on the non-adherence of Coprisochus Motschulsky[J].Acta Biophysiea Sinica,2001,17(4):785-793. |
| [30] | 王国林,任露泉,陈秉聪.蜣螂体表几何非光滑结构单元分布的分形特性[J].农业机械学报,1997,28(4):5-9.Wang Guolin,Ren Luquan,Chen Bingcong.The detach-shape character of the non-smooth geometrical units'distributing on the integumentary surface of the Coprisochus Motschulsky[J].Journal of Agriculture Machine,1997,28(4):5-9. |
| [31] | 张欣茹,姜泽毅,张欣欣,等.沙漠甲虫Stenocara与空气取水[J].科技导报,2006,24(2):18-121.Zhang Xinru,Jiang Zeyi,Zhang Xinxin,et al.Desert beetle and water extraction from air[J].Science and Technology Review,2006,24(2):18-21. |
| [32] | Kinoshita S,Yoshioka S,Fujii Y,et al.Photophysies of structural color in the morpho butterflies[J].Forma,2002,17(2):103-121. |
| [33] | Yoshioka S,Kinoshita S.Effect of macroscopic structure in iridescent color of the peacocks'feathers[J].Forma,2002,17(2):169-181. |
| [34] | Yoshida A,Motoyama M,Kosaku A,et al.Nanoprotuberance array in the transparent wing of a hawkmoth[J].Cephonodes hylas.Zool Sci,1996.13(4):525-526. |
| [35] | Kinoshita S,Yoshioka S.Structural colors in nature:The role of regularity and irregularity in the structure[J].Chem Phys Chem,2005,6(8):1442-1459. |
| [36] | 蔡国斌,俞书宏.仿生纳米材料的设计与未来[J].生命科学,2008.20(3):331-335.Cai Guobin,Yu Shuhong.The design and future of bio-inspired nanomaterials[J].Chinese Bulletin of Life Science,2008,20(3):331-335. |
| [37] | Chen J X,Li Qing,Ni Q Q,Xu Y L,et al.A light biomimetic composite with a sandwich construction and some design Examples[C]//ISNIT & ISIUS 2008 Proceeding.2008. |
| [38] | 李建桥,任露泉,陈秉聪.土壤动物非光滑体表几何单元的统计分析及模拟[J].农业工程学报,1995,11(2):1-5.Li Jianqiao,Ren Luquan,Chen Bingcong.The statistics analysis and mathematical analogy of unsmoothed geometrical units on the surface of soil animal[J].Transactions of the CSAE,1995.11(2):1-5. |
| [39] | 王国林.推土板的仿生分形设计[J].农业工程学报,2000,16(5):23-25.Wang Guolin.Fractal design of bulldozing plate[J].Transactions of the CSAE,2000,16(5):23-25. |
| [40] | 江雷,冯琳.仿生智能纳米界面材料[M].北京:化学工业出版社,2007:78-80. |
| [41] | 宋心远,沈煜如.结构生色和纺织品生态着色[J].上海染料,2005,33(1):1-9.Song Xinyuan,Shen Yuru.Structural color formation and ecotype coloration of textile[J].Shanghai Dyestuff,2005,33(1):1-9. |
| [42] | 宋心远,沈煜如.结构生色和纺织品生态着色[J].上海染料,2005,33(2):11-16.Song Xinyuan,Shen Yuru.Structural color formation and ecotypo coloration of textile[J].Shanghai Dyestuff,2005,33(2):11-16. |
| [43] | 宋心远,沈煜如.结构生色和纺织品生态着色[J].上海染料,2005,33(3):1-6.Song Xinyuan,Shen Yuru.Structural color formation and ecotype coloration of textile[J].Shanghai Dyestuff,2005,33(3):1-6. |
| [44] | Stephen Richards,Richard A G,George M W et al.The genome of the model beetle and pest:Tribolium castaneum[J],Nature,2008,452:949-955. |
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%