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Artificial foods. --- Biopolymers. --- Biopolymer --- Engineered foods --- Fabricated foods --- Food, Artificial --- Substitutes for food --- Synthetic foods --- Food --- Food substitutes --- Bioplastics --- Bioplastic

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These days, massive consumer demands for short-term single-use plastic materials have produced huge plastic waste, which in turn has created tremendous environmental pollution. Biodegradable polymers or biopolymers can be used to develop alternatives to synthetic petroleum-based plastics. Different sources of biopolymers, like carbohydrates, proteins, and lipids, as well as biodegradable polymers such as polyesters, polyamides, polyurethanes, etc., have been utilized recently to make environmentally benign biodegradable plastic.

Technology: general issues --- History of engineering & technology --- Environmental science, engineering & technology --- pullulan/carrageenan --- CuSNP --- limonene --- composite film --- mechanical property --- antibacterial activity --- chitosan --- tannic acid --- titanium dioxide --- nanocomposite film --- mechanical properties --- antioxidant activity --- melanin --- carvacrol --- agricultural residues --- carboxymethyl cellulose --- bioactive films --- functional films --- antimicrobial activity --- long afterglow PP composites --- plasticizer --- thermal --- mechanical --- DNA films --- spin coating --- film uniformity --- solvent effect --- biobased materials --- biodegradable --- food packaging --- pectin film --- physicomechanical --- Salicornia ramosissima --- sustainability --- biopolymer --- nanocomposites --- shelf life --- antimicrobial --- flexible printed electronics --- flexible hybrid electronics --- biopolymer films --- renewable-based substrate --- screen-printing --- surface energy --- pullulan --- gelatin --- sodium alginate --- oil oxidation --- edible film --- grease packaging --- n/a --- curcumin --- diclofenac --- films --- biopolymers --- carrageenan/alginate/poloxamer --- wound healing --- carrageenalginate/poloxamer

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Concern around environmental issues facing society has grown significantly in recent years. Reduction in damages resulting from both industrial and domestic waste has become a key topic as a means to address environmental problems and the exhaustion of natural resources. Likewise, the use of materials of polymeric origin in applications such as tissue regeneration, controlled release of medicines, packaging, soil remediation, etc., makes the development of materials biodegradable in biological media increasingly important. Recently, significant progress has been achieved in the creation of biodegradable polymeric formulations with functionalities similar to those of non-biodegradable polymers, both of natural and of synthetic origin, extending their applicability to fields such as food packaging, electronics, production of health-related materials, agriculture, etc. In this context, biodegradable nanocomposites offer new and exciting possibilities. This book deals with the development of functional polymer nanocomposites that can undergo biodegradation in different media, including biological systems, soils, landfills, etc. Original and review articles covering aspects of polymer science and technology, such as synthesis, processing, characterization, properties, and applications of functional biodegradable nanocomposites for different applications, are included in this book.

Technology: general issues --- History of engineering & technology --- Materials science --- biodegradable --- biocompatible --- electronics --- nanocomposites --- polymer microgels --- hybrid microgels --- thermoresponsive --- rheology --- scaling theory --- fractal analysis --- poly(lactic acid) --- oligomeric lactic acid --- eco-friendly silver nanoparticles --- biopolymer properties --- antimicrobial activity --- packaging --- nanomaterials --- nanomedicine --- poly (lactic acid) --- shape memory properties --- biomedical --- thermoplastic polymer --- melt spinning --- thermoplastic yarn --- electric conductivity --- wearable textile --- biodegradable polymers --- coextrusion --- multilayer film --- barrier properties --- montmorillonite fillers --- 3D printing --- poly(lactic acid) (PLA) --- additive manufacturing (AM) --- fused deposition modeling (FDM) --- cellulose --- carbon nanoparticles --- n/a

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fysicochemie --- Molecular biology --- Macromolecules --- Polymers --- Macromolécules --- chemistry --- periodicals --- Periodicals --- Périodiques --- Biopolymers --- Peptides --- Spectrum analysis --- Biopolymers. --- Peptides. --- Spectrum analysis. --- #TS:WDEP --- Chemistry. --- Organic Chemistry. --- Polymers and Plastics, --- Polymer Technology, --- Biomaterials, --- Composites, --- Engineering. --- Material Science and Metallurgy. --- Chemistry --- Engineering --- Health Sciences --- Material Science and Metallurgy --- General and Others --- Organic Chemistry --- Polymers and Plastics --- Polymer Technology --- Physiology --- Biomaterials --- Composites --- Macromolécules --- Périodiques --- EJBIOMO EJCHIMI EPUB-ALPHA-B EPUB-PER-FT MDBIOCHE MDCHEMIS WILEY-E --- periodicals. --- moleculaire biologie --- biopolymeren --- General biochemistry --- Proteins. --- Bioactive polymers --- Biological polymers --- Natural polymers --- Naturally occurring polymers --- Biomolecules --- Organic compounds --- Amino acids --- Gene Products, Protein --- Gene Proteins --- Protein Gene Products --- Proteins, Gene --- Molecular Mechanisms of Pharmacological Action --- Polypeptides --- Analysis, Spectrum --- Spectra --- Spectrochemical analysis --- Spectrochemistry --- Spectroscopy --- Chemistry, Analytic --- Interferometry --- Optics --- Radiation --- Wave-motion, Theory of --- Absorption spectra --- Light --- Spectroscope --- Qualitative --- Protein --- Peptide --- Polypeptide --- Spectrometry --- Analytical chemistry --- Biopolymers - Periodicals --- Peptides - Periodicals --- Spectrum analysis - Periodicals --- Polymers - chemistry - Periodicals --- Biopolymères. --- Biopolymères --- Peptide. --- Biopolymère. --- Bioplastics --- Bioplastic --- Biopolymer

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Rheology, defined as the science of deformation and flow of matter, is a multidisciplinary scientific field, covering both fundamental and applied approaches. The study of rheology includes both experimental and computational methods, which are not mutually exclusive. Its practical importance embraces many processes, from daily life, like preparing mayonnaise or spread an ointment or shampooing, to industrial processes like polymer processing and oil extraction, among several others. Practical applications include also formulations and product development. This Special Issue aims to present the latest advances in the fields of experimental and computational rheology applied to the most diverse classes of materials (foods, cosmetics, pharmaceuticals, polymers and biopolymers, multiphasic systems and composites) and processes. This Special Issue will comprise, not only original research papers, but also review articles.

n/a --- microstructure --- microfluidization --- yield stress --- nonlinear diffusion equation --- particle suspensions --- colloids --- viscous gravity spreading --- nanocomposites --- BMP model --- LCB polypropylene --- diutan gum --- thixotropy --- complex fluids --- traction test --- viscoelasticity --- biopolymer --- normal stresses --- start-up shear --- OpenFOAM --- flow properties --- rheometry --- oscillatory flows --- linear viscoelasticity --- continuum model --- steady-state and transient flow --- interfacial shear rheology --- shear-banding flow --- pressure transducers --- jetting --- natural hydraulic lime --- generalized Boussinesq equation --- prototyping --- piezoelectric --- masonry --- polymer processing --- eco-friendly surfactant --- emulsion stability --- rhamsan gum --- lubricating grease --- computational rheology --- Saffman–Taylor instability --- extrusion --- volume of fluid method --- polymers --- weak gel --- cement pastes --- Carbopol --- thyme oil --- elongational flow --- rheology --- grout --- epoxy --- polystyrene --- shear thickening --- bulk rheology --- porous medium equation --- consolidation --- Dupuit-Forchheimer assumption --- yield stress fluid --- drop formation --- dilatational rheology --- droplet size distribution (DSD) --- Navier-Stokes equations --- Saffman-Taylor instability