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Fibrillar Structure and its Relevance to Diffusion, Shrinkage, and Relaxation Processes in Nylon Fibers
N. Sanjeeva Murthy
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Article
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peer-review
14
Scopus citations
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Dive into the research topics of 'Fibrillar Structure and its Relevance to Diffusion, Shrinkage, and Relaxation Processes in Nylon Fibers'. Together they form a unique fingerprint.
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Keyphrases
Lamellae
100%
Wide-angle
100%
Non-crystalline Materials
100%
Diffusion Process
100%
Fibril Structure
100%
Chain Segment
100%
Relaxation Process
100%
Interfibrillar
100%
Shrinkage Methods
100%
Nylon Fiber
100%
Saxs
100%
Crystallization
50%
Small-angle X-ray Scattering
50%
Diffraction
50%
Solvent Molecules
50%
Annealing
50%
Neutron Scattering
50%
X-ray Diffraction Pattern
50%
Glass Transition Temperature
50%
Amorphous Phase
50%
Shrinkage Behavior
50%
Diffusion Characteristics
50%
Semicrystalline Polymers
50%
Nylon 6 Fiber
50%
Amorphous Orientation
50%
Heat Setting
50%
Anisotropic Component
50%
Isotropic Component
50%
Material Science
Diffraction Pattern
100%
Glass Transition Temperature
100%