Add to ORKGThe morphology of the primary feather shaft from the pigeon wing has been examined and its salient features noted. The cortex (outer wall) of the shaft appeared to be the most significant feature in relation to bending behaviour and was analysed quantitatively. A model that simulated bending of the shaft was made using this analysis and upon comparison of simulated results with observed bending behaviour it is shown that the shape and size of the cortex does indeed account for the majority of bending behaviour. The model does not include torsional effects and the effects of the pithy medulla and the transverse septa, but the magnitude of these effects is considered to be small in comparison with that of the cortex considered in simple bendi...
Bird feather shafts are light, stiff and strong, but the fine details of how their structure, mechan...
Avian flight feathers have the unique advantages of lightweight and high strength, which play a key ...
Variation in rachis (central shaft) morphology in individual remiges (flight feathers) within and am...
Young's moduli (E) in bending and extension were measured for selected contour feather shafts f...
The American barn owl (Tyto furcata pratincola) evolved morphological specializations that facilitat...
Within 100 years of the Wright Brother's first flight, we are already approaching the top of aviatio...
The primary feathers of birds are subject to cyclical forces in flight causing their shafts (rachise...
It was previously suggested that the flight ability of feathered fossils could be hypothesized from ...
In bird flight, the majority of the wing surface consists of highly refined and hierarchically organ...
The effects of size on the structural design of the wings of both birds and bats were investigated. ...
<p><b>Copyright information:</b></p><p>Taken from "Morphometric characterisation of wing feathers of...
Wings and feathers of barn owls (Tyto alba) were investigated with anatomical, morphometrical and bi...
Feathers have been evolving for more than 130 million years under selection pressures to become ligh...
The avian feather combines mechanical properties of robustness and flexibility while maintaining a l...
Bird flight has evolved to be highly efficient over a time span of a million years. Much of the evol...
Bird feather shafts are light, stiff and strong, but the fine details of how their structure, mechan...
Avian flight feathers have the unique advantages of lightweight and high strength, which play a key ...
Variation in rachis (central shaft) morphology in individual remiges (flight feathers) within and am...
Young's moduli (E) in bending and extension were measured for selected contour feather shafts f...
The American barn owl (Tyto furcata pratincola) evolved morphological specializations that facilitat...
Within 100 years of the Wright Brother's first flight, we are already approaching the top of aviatio...
The primary feathers of birds are subject to cyclical forces in flight causing their shafts (rachise...
It was previously suggested that the flight ability of feathered fossils could be hypothesized from ...
In bird flight, the majority of the wing surface consists of highly refined and hierarchically organ...
The effects of size on the structural design of the wings of both birds and bats were investigated. ...
<p><b>Copyright information:</b></p><p>Taken from "Morphometric characterisation of wing feathers of...
Wings and feathers of barn owls (Tyto alba) were investigated with anatomical, morphometrical and bi...
Feathers have been evolving for more than 130 million years under selection pressures to become ligh...
The avian feather combines mechanical properties of robustness and flexibility while maintaining a l...
Bird flight has evolved to be highly efficient over a time span of a million years. Much of the evol...
Bird feather shafts are light, stiff and strong, but the fine details of how their structure, mechan...
Avian flight feathers have the unique advantages of lightweight and high strength, which play a key ...
Variation in rachis (central shaft) morphology in individual remiges (flight feathers) within and am...