不可逆和可逆变色甲虫鞘翅的纳米力学特性

2017 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO) Pub Date : 2017-08-01 DOI:10.1109/3M-NANO.2017.8286284

Jiyu Sun, Wei Wu, Ruijuan Du, Chunxiang Pan, Zhijun Zhang

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引用次数: 0

摘要

本文研究了Harmonía水仙和天蚕鞘翅的变色特性和纳米力学性能。Harmonía木犀草不可逆的颜色变化与角质层的色素和微结构有关。纳米压痕结果表明，黑点区蛋白质基质的强相互作用可能导致其比橙色区更硬。此外，黑点区域具有各向异性力学性能。对于天蚕的可逆性变色，对其鞘翅结构形态的测量表明，其由黄绿色到深褐色的变色主要是由于海绵结构吸水所致。Er和H从表皮(EPI)向膜内(ENDO)呈增加趋势。elytron表面相对较低的Er和H起到缓冲的作用，越来越高的强度是为了保持其形状和稳定性。

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Nanomechanical properties of elytra derived from irreversible and reversible color-changing beetles

The color-changing and nanomechanical properties of elytra of Harmonía axyridis Pallas and Dynastes tityus were studied in this paper. The irreversible color change of Harmonía axyridis Pallas is related to pigments and microstructures of cuticle. And nanoindentation results demonstrate that the strong interactions of protein matrix of black spot region may lead it to be harder than orange region. Additionally, the black spot region has anisotropic mechanical properties. As to reversible color change of Dynastes tityus, measurements on structure morphology of elytra indicate that the color-changing from yellow-green to deep-brown mainly results from water absorption with sponge structure. Er and H display an increasing tendency from epicuticle (EPI) to endocuticle (ENDO). The relatively low Er and H of elytron surface play a role in buffer, and the increasingly higher strength is to keep its shape and stability.

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2017 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO)

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