Note: Not guaranteed to come with supplemental materials (access cards, study guides, lab manuals, CDs, etc.)
Extend Your Rental at Any Time
Need to keep your rental past your due date? At any time before your due date you can extend or purchase your rental through your account.
Sorry, this item is currently unavailable.
Over 30% of commercial polymers are blends or alloys or one kind or another. Nanostructured blends offer the scientist or plastics engineer a new range of possibilities with characteristics including: thermodynamic stablility; the potential to improve material transparency, creep and solvent resistance; the potential to simultaneously increase tensile strength and ductility; superior rheological properties; relatively low cost... Nanostructured Polymer Blends open up immense structural possibilities, via chemical and mechanical modifications which generate novel properties and functions, and high-performance characteristics at a low cost. The emerging applications of these new materials cover a wide range of industry sectors encompassing the coatings and adhesives industry, electronics, energy (photovoltaics), aerospace and medical devices (where polymer blends provide innovations in biocompatible materials). This book explains the science of nanostructure formation, and the nature of interphase formations, demystifies the design of nanostructured blends to achieve specific properties, and introduces the applications for this important new class of nanomaterial. All the key topics related to recent advances in blends are covered: IPNs, phase morphologies, composites and nanocomposites, nanostructure formation, the chemistry and structure of additives, etc. Introduces the science and technology of nanostructured polymer blends - and the procedures involved in meltblending and chemical blending to produce new materials with specific performance characteristics. . Unlocks the potential of nanostructured polymer blends for applications across sectors including electronics, energy / photovoltaics, aerospace / automotive, and medical devices (biocompatible polymers). . Explains the performance benefits in areas including rheological properties, thermodynamic stablility, material transparency, solvent resistance, etc.