THE ANT’S MYSTERIOUS NECK STRENGTH
Mechanical Engineers marvel at the
ability of a common ant to lift weights many times heavier than its own body.
To understand this ability, engineer at Ohio State University, U.S.A., reverse
engineered some of the ant’s anatomy, physical properties, and mechanical
functions by means of computer models. The models were created using X-ray
cross-sectional images [micro CT scans] and simulations of the forces an ant
generates when carrying loads.
A critical part of the ant’s anatomy is
its neck, which has to bear the full weight of loads grasped in its mouth. Soft
tissues within the ant’s neck bind with the stiff exoskeleton of its thorax
[body] and head in a manner that mimics the interlocking of fingers in folded hands. The design
and structure of this interface is critical for the performance of the neck
joint. The unique interface between hard and soft materials likely strengthens
the adhesion and may be a key structural design feature that enables the large
load capacity of the neck joint. Researchers hope that a clear grasp of how the
ant’s neck functions will contribute to advancements in the design of man-made
robotic mechanisms. What do you think of these complex and highly integrated
mechanical systems.
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