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Mechanical Deformation Mechanisms in Knitted Fabric Composites
Journal of Thermoplastic Composite Materials, 1997Knitted fabric composites have certain advantages over woven composites, particularly in their ability to conform to complicated contours. As a consequence, however, they demonstrate inferior mechanical characteristics compared to woven materials as a direct result of the presence of bent fibers. Such a knitted fabric composite made from, for example,
Kelay, M.S., Bader, D., Reed, P.E.
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Electrostatic Mechanisms of DNA Deformation
Annual Review of Biophysics and Biomolecular Structure, 2000▪ Abstract The genomes of higher cells consist of double-helical DNA, a densely charged polyelectrolyte of immense length. The intrinsic physical properties of DNA, as well as the properties of its complexes with proteins and ions, are therefore of fundamental interest in understanding the functions of DNA as an informational macromolecule.
L D, Williams, L J, Maher
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Mechanical Deformation Mediated Transmembrane Transport
Macromolecular Rapid Communications, 2019AbstractTransmembrane transport is essential and plays critical roles for molecule exchange for cell survival. Methods capable of mimicking and regulating transmembrane transport have transformed the ability to create biosensors, separation membranes, and drug carriers.
Zunzhen Ming, Yan Pang, Jinyao Liu
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1988
The deformation mechanisms of hcp metals are more complex and less well investigated than those of, for example, face-centered cubic (fcc) and body-centered cubic (bcc) metals [4,12–15].
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The deformation mechanisms of hcp metals are more complex and less well investigated than those of, for example, face-centered cubic (fcc) and body-centered cubic (bcc) metals [4,12–15].
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Deformation mechanisms in experimentally deformed plagioclase feldspars
Physics and Chemistry of Minerals, 1977Optical and transmission electron microscopy have been used to study the microstructures in a series of plagioclase feldspars which had been experimentally deformed in compression. The observations show that deformation takes place by three mechanisms: (1) brittle fracture, (2) twinning and (3) slip due to the generation and motion of dislocations ...
D. B. Marshall, A. C. McLaren
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1994
Abstract If all images in a pattern were presented in their pure form to the observer the task of pattern analysis would be drastically simplified compared to what is usually the case: the observed images are degraded versions of the pure ones.
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Abstract If all images in a pattern were presented in their pure form to the observer the task of pattern analysis would be drastically simplified compared to what is usually the case: the observed images are degraded versions of the pure ones.
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Highly deformable bones: Unusual deformation mechanisms of seahorse armor
Acta Biomaterialia, 2013Multifunctional materials and devices found in nature serve as inspiration for advanced synthetic materials, structures and robotics. Here, we elucidate the architecture and unusual deformation mechanisms of seahorse tails that provide prehension as well as protection against predators. The seahorse tail is composed of subdermal bony plates arranged in
Michael M, Porter +4 more
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QUANTUM DEFORMATIONS OF QUANTUM MECHANICS
Modern Physics Letters A, 1993Based on a deformation of the quantum mechanical phase space we study q-deformations of quantum mechanics for qk=1 and 0<q<1. After defining a q-analog of the scalar product on the function space we discuss and compare the time evolution of operators in both cases.
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Mechanical deformation mechanisms and properties of amyloid fibrils
Physical Chemistry Chemical Physics, 2015We study the role that the length of amyloid fibrils plays in their mechanical deformation mechanisms and properties by using all-atom explicit water steered molecular dynamics simulations.
Bumjoon, Choi +3 more
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Mechanical Deformation Behavior
1994The correlation between applied mechanical load and resulting deformation is described by moduli. The basic component of moduli is controlled by binding forces, originating from deformations of the electron configurations. The load acts against the binding forces. This component reacts nearly immediately and is responsible for the elastic behavior.
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