REVERSE ENGINEERING THE STRUCTURE AND FUNCTION OF THE ALLEGHENY MOUND ANT NECK (INSECTA, HYMENOPTERA, FORMICA, EXSECTOIDES)

机译：逆向工程Allegheny蚁巢的结构和功能（昆虫，膜翅目，甲壳虫，杀虫剂）

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Insects as mechanical systems have been optimized for form and function over millions of years. Ants, in particular, can lift and carry extremely heavy loads relative to their body mass. Loads are lifted with the mouthparts, transferred through the neck joint to the thorax, and distributed over six legs and feet that anchor to the supporting surface. While previous research efforts have explored attachment mechanisms of the feet, little is known about the mechanical design of the neck -the single joint that connects the load path from the thorax to the head. This work combines mechanical testing, computed tomography (CT) and scanning electron microscope (SEM) imaging, and computational modeling to better understand the mechanical structure-function relation of the ant neck joint.

机译：昆虫作为机械系统经过数百万年的发展，其形式和功能得到了优化。尤其是蚂蚁，相对于它们的体重，它们可以举起并承载极重的负载。用口器提起负载，通过颈部关节将其传递到胸腔，并分布在固定在支撑表面上的六个腿和脚上。尽管先前的研究工作已经探究了脚的附着机制，但对颈部的机械设计却知之甚少-单一关节连接了从胸部到头部的负荷路径。这项工作结合了机械测试，计算机断层扫描（CT）和扫描电子显微镜（SEM）成像以及计算模型，以更好地了解蚂蚁颈关节的机械结构与功能的关系。

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《ASME international mechanical engineering congress and exposition》|2013年|603-605|共3页
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Vienny N. Nguyen; Blaine W. Lilly; Carlos E. Castro;
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insect; exoskeleton; biomaterials; biomechanics; structure-function;

机译：昆虫;外骨骼生物材料生物力学结构功能;
入库时间 2022-08-26 14:27:20

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REVERSE ENGINEERING THE STRUCTURE AND FUNCTION OF THE ALLEGHENY MOUND ANT NECK (INSECTA, HYMENOPTERA, FORMICA, EXSECTOIDES)

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