The Study and Predict on the Surface Structure and the Characteristics of Pincers of Crawfish (Procambarus Clarkii)
Key words: Non-Smooth Surface; Pincers of Crawfish; Drag Reduction; Wear Resistance
Cong, Q, Ren, L.Q., Wu, L.k., Chen, B.C., Li, A.Q., Jing, D.Z. (1992). Taxonomic Research on Geometric Non-smooth Animal Surface Shapes. Transactions of the Chinese Society of Agricultural Engineering, 2(8), 7-12
Cheng, H., Sun, J.R. (2002). Structure of the integumentary surface of the dung beetle Copris ochus Motschulsky and its relation to non-adherence of substrate particles. Acta Entomologica Sinica, 45(2), 175–181.
Li, J.Q., Ren, L.Q., Liu, C.Z., Chen, B.C. (1996). A study on the bionic plow molboard of reducing soil adhesion and plowing resistance. Transactions of the Chinese Society of Agricultural Machinery, 27(2).
Ren, L.Q., Cong, Q., Wu, L.K., Fang, Y. (1997). A Test Study on Adhesion and Resistance Reduction of Bionic Non-smooth Bulldozing Plates. Transactions of the Chinese Society of Agricultural Machinery, 28(2), 1-5
Ren, L.Q., Li, J.Q., Tong, J. (2001). Biotic non-smoothness and its applications. Proceedings of the 6th Asia-Pacific Conference of ISTVS, Bankok, Tailand, 351-358.
Ren, L.Q., Han, Z.W., Li, J.Q., Tong, J. (2002). Effects of non-smooth characteristics on bionic bulldozer blades in resistance reduction against soil. Journal of Terramechanics, 39 (4), 221-230.
Ren, L.Q., Wang, Z.Y., Han, Z.W. (2003). Experimental Research on Sliding Wear of Bionic Non-smoothed Surface. Transactions of the Chinese Society of Agricultural Machinery, 43(2), 86-87
Ren, L.Q., Yang, Z.J., Han, Z.W. (2005). Non-smooth wearable surfaces of living creatures and their bionic application. Transactions of the Chinese Society of Agricultural Machinery, 36(7), 144-147.
Raabe D, Sachs C, Romano P. (2005a). The crustacean exoskeleton as an example of a structurally and mechanically graded biological nanocomposite material. Acta Mater, 53, 4281–4292
Raabe D, Romanoa P, Sachs C, Al-Sawalmih, A., Brokmeier, H.-G., Yi, S.-B., et al. (2005b). Discovery of a honeycomb structure in the twisted plywood patterns of fibrous biological nanocomposite tissue. J Crystal Growth, 283, 1–7
Raabe D, Romanoa P, Sachs C, Fabritius, H., Al-Sawalmih, A., Yi, S.-B., et al. (2006). Microstructure and crystallographic texture of the chitin protein network in the biological composite material of the exoskeleton of the lobster Homarus americanus. Mater Sci Eng, 421, 143–153
Romano P, Fabritius H, Raabe D. (2007). The exoskeleton of the lobster Homarus americanus as an example of a smart anisotropic biological material. Acta Biomater, 3, 301–309
Raabe D, Al-Sawalmih A, Yi S. B. (2007). Preferred crystallographic texture of α-chitin as a microscopic and macroscopic design principle of the exoskeleton of the lobster Homarus americanus. Acta Biomater, 3, 882–895
Sachs C, Fabritius H, Raabe D.(2006). Experimental investigation of the elastic plastic deformation of mineralized lobster cuticle by digital image correlation. J Struct Biol, 155, 409–524
Wang, L.D., Sun, W.Z., Liang, T.X. (1996). The research status of bionic materials. Materials Engineering, 2, 3-5
- There are currently no refbacks.
If you have already registered in Journal A and plan to submit article(s) to Journal B, please click the CATEGORIES, or JOURNALS A-Z on the right side of the "HOME".
We only use the following emails to deal with issues about paper acceptance, payment and submission of electronic versions of our journals to databases:
firstname.lastname@example.org; email@example.com; firstname.lastname@example.org
Copyright © Canadian Research & Development Centre of Sciences and Cultures (CRDCSC)
Address:730, 77e AV, Laval, Quebec, H7V 4A8, Canada
Telephone: 1-514-558 6138