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With conventional materials contributing greatly to environmental waste, biodegradable and natural composites have grown in interest and display low environmental impact at low cost across a wide range of applications. This book provides an overview of different biodegradable and natural composites and focuses on efforts into increasing their mechanical performance to extend their capabilities and applications.
Composite materials. --- Biodegradability. --- Composite Materials.
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This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact
biodegradable polymers --- biodegradable composites --- biodegradability --- material characterization --- environmental sustainability --- recyclability
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This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact
Civil engineering, surveying & building --- Mechanical engineering & materials --- biodegradable polymers --- biodegradable composites --- biodegradability --- material characterization --- environmental sustainability --- recyclability --- biodegradable polymers --- biodegradable composites --- biodegradability --- material characterization --- environmental sustainability --- recyclability
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This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact
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In recent years, there has been significant progress in biomass research as bio-based products are beneficial to the environment, energy-saving, and cost-saving if they are processed properly. The book collects the most state-of-the-art works related to the natural fiber composites in a Special Issue entitled “Natural Fiber Biocomposites”. These works address all the issues related the manufacturing of natural fiber composite products, from (1) raw materials, such as wood, flax fiber, and cellulose nanofiber; to the (2) raw material treatments, such as furfuryl alcohol pretreatment, ultrasonic vibration treatment (UVT), and extraction method for the resins; to the (3) process of the composites fabrication, such as thermo-hygro-mechanical densification; and to the (4) performance of the composites, including mechanical, moisture absorption, opacity, thermal, and biodegradability. Discussions on the adhesives/resins used in the natural fiber composites fabrication, such as dried distiller’s grains and solubles (DDGS), pennycress (Thlaspi arvense L.) press cakes (PPC), and lesquerella [Lesquerella fendleri (A. Gary) S. Watson] press cake (LPC), starch, and polylactic acid (PLA), are also part of the book. It is believed the technical information presented in this book will contribute to the development of the bio-based composites.
Research & information: general --- flexural properties --- panels --- by-products --- non-dietetic uses --- modulus of rupture --- modulus of elasticity --- nanofiber cellulose --- water hyacinth --- thermoplastic starch --- bionanocomposites --- ultrasonic vibration time --- density --- gas permeability --- thermal conductivity --- densification --- durability --- green composites --- cellulosic fibers --- water uptake --- biocomposite --- starch --- cellulose --- ultrasonication --- moisture absorption --- opacity --- mat porosity --- mat thermal conductivity --- fiber size --- hot-pressing process --- PLA --- flax --- thermoplastic composites --- mechanical properties --- biodegradability
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In recent years, there has been significant progress in biomass research as bio-based products are beneficial to the environment, energy-saving, and cost-saving if they are processed properly. The book collects the most state-of-the-art works related to the natural fiber composites in a Special Issue entitled “Natural Fiber Biocomposites”. These works address all the issues related the manufacturing of natural fiber composite products, from (1) raw materials, such as wood, flax fiber, and cellulose nanofiber; to the (2) raw material treatments, such as furfuryl alcohol pretreatment, ultrasonic vibration treatment (UVT), and extraction method for the resins; to the (3) process of the composites fabrication, such as thermo-hygro-mechanical densification; and to the (4) performance of the composites, including mechanical, moisture absorption, opacity, thermal, and biodegradability. Discussions on the adhesives/resins used in the natural fiber composites fabrication, such as dried distiller’s grains and solubles (DDGS), pennycress (Thlaspi arvense L.) press cakes (PPC), and lesquerella [Lesquerella fendleri (A. Gary) S. Watson] press cake (LPC), starch, and polylactic acid (PLA), are also part of the book. It is believed the technical information presented in this book will contribute to the development of the bio-based composites.
flexural properties --- panels --- by-products --- non-dietetic uses --- modulus of rupture --- modulus of elasticity --- nanofiber cellulose --- water hyacinth --- thermoplastic starch --- bionanocomposites --- ultrasonic vibration time --- density --- gas permeability --- thermal conductivity --- densification --- durability --- green composites --- cellulosic fibers --- water uptake --- biocomposite --- starch --- cellulose --- ultrasonication --- moisture absorption --- opacity --- mat porosity --- mat thermal conductivity --- fiber size --- hot-pressing process --- PLA --- flax --- thermoplastic composites --- mechanical properties --- biodegradability
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In recent years, there has been significant progress in biomass research as bio-based products are beneficial to the environment, energy-saving, and cost-saving if they are processed properly. The book collects the most state-of-the-art works related to the natural fiber composites in a Special Issue entitled “Natural Fiber Biocomposites”. These works address all the issues related the manufacturing of natural fiber composite products, from (1) raw materials, such as wood, flax fiber, and cellulose nanofiber; to the (2) raw material treatments, such as furfuryl alcohol pretreatment, ultrasonic vibration treatment (UVT), and extraction method for the resins; to the (3) process of the composites fabrication, such as thermo-hygro-mechanical densification; and to the (4) performance of the composites, including mechanical, moisture absorption, opacity, thermal, and biodegradability. Discussions on the adhesives/resins used in the natural fiber composites fabrication, such as dried distiller’s grains and solubles (DDGS), pennycress (Thlaspi arvense L.) press cakes (PPC), and lesquerella [Lesquerella fendleri (A. Gary) S. Watson] press cake (LPC), starch, and polylactic acid (PLA), are also part of the book. It is believed the technical information presented in this book will contribute to the development of the bio-based composites.
Research & information: general --- flexural properties --- panels --- by-products --- non-dietetic uses --- modulus of rupture --- modulus of elasticity --- nanofiber cellulose --- water hyacinth --- thermoplastic starch --- bionanocomposites --- ultrasonic vibration time --- density --- gas permeability --- thermal conductivity --- densification --- durability --- green composites --- cellulosic fibers --- water uptake --- biocomposite --- starch --- cellulose --- ultrasonication --- moisture absorption --- opacity --- mat porosity --- mat thermal conductivity --- fiber size --- hot-pressing process --- PLA --- flax --- thermoplastic composites --- mechanical properties --- biodegradability --- flexural properties --- panels --- by-products --- non-dietetic uses --- modulus of rupture --- modulus of elasticity --- nanofiber cellulose --- water hyacinth --- thermoplastic starch --- bionanocomposites --- ultrasonic vibration time --- density --- gas permeability --- thermal conductivity --- densification --- durability --- green composites --- cellulosic fibers --- water uptake --- biocomposite --- starch --- cellulose --- ultrasonication --- moisture absorption --- opacity --- mat porosity --- mat thermal conductivity --- fiber size --- hot-pressing process --- PLA --- flax --- thermoplastic composites --- mechanical properties --- biodegradability
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Pollution --- Toxicity testing --- Environmental monitoring --- Environmental aspects --- Congresses --- -Pollution --- -Poisons --- Toxicological testing --- Toxicology --- Toxicology testing --- Toxicology, Experimental --- Chemical pollution --- Chemicals --- Contamination of environment --- Environmental pollution --- Contamination (Technology) --- Asbestos abatement --- Bioremediation --- Environmental engineering --- Environmental quality --- Factory and trade waste --- Hazardous waste site remediation --- Hazardous wastes --- In situ remediation --- Lead abatement --- Pollutants --- Refuse and refuse disposal --- Biomonitoring (Ecology) --- Ecological monitoring --- Monitoring, Environmental --- Applied ecology --- -Congresses. --- Testing --- Control --- Measurement --- Monitoring --- Congresses. --- -Congresses --- Environmental aspects&delete& --- Chemicals control(Notification Files) --- Ecotoxicology --- Toxicity tests --- Biodegradability(Screening Tests)
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The bioeconomy initially focused on resource substitution, including the production of biomass from various resources; its conversion, fractionation, and processing by means of biotechnology; and chemistry and process engineering towards the production and marketing of food, feed, fuel, and fibre. Nevertheless, although resource substitution is still considered important, the emphasis has been recently shifted to the biotechnological innovation perspective of the bioeconomy, in terms that ensure environmental sustainability. It is estimated that around one-third of the food produced for human consumption is wasted throughout the world, posing not only a sustainability problem related to food security but also a significant environmental problem. Food waste streams, mainly derived from fruits and vegetables, cereals, oilseeds, meat, dairy, and fish processing, have unavoidably attracted the interest of the scientific community as an abundant reservoir of complex carbohydrates, proteins, lipids, and functional compounds, which can be utilized as raw materials for added-value product formulations. This Special Issue focuses on innovative and emerging food and by-products processing methods for the sustainable transition to a bioeconomy era.
ash content --- sorghum milling waste --- lipids --- compost --- oleic acid --- microbial oil --- bioprocess development --- glucoamylase --- fatty acid methyl esters --- oleaginous yeast --- integrated biorefineries --- biorefineries --- hydrophobic substrates --- food processing --- hydrophilicity --- biodiesel --- films --- biodegradability --- clarified butter sediment waste --- submerged fungal fermentation --- blood plasma protein powder --- Morchella --- hydrogels --- heat-induced gelation --- sustainability --- bacterial cellulose --- bioprocesses --- circular economy --- olive waste --- prebiotics --- Rhodosporidium toruloides --- carotenoids --- waste valorization --- glucosamine --- food-processing --- size exclusion chromatography (SEC) --- bioeconomy --- food waste valorization --- whey proteins --- arabinoxylan --- Ostwald ripening --- emulsion --- emulsifier --- food biotechnology --- drying method --- polysaccharides --- food packaging --- texture --- lactose esters --- morel mushrooms --- circular-economy --- solid state fermentation --- bioactive compounds --- edible films --- hydrolysis --- Aspergillus awamori
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Plasma electrolytic oxidation (PEO), also known as micro-arc oxidation (MAO), functionalizes surfaces, improving the mechanical, thermal, and corrosion performance of metallic substrates, along with other tailored properties (e.g., biocompatibility, catalysis, antibacterial response, self-lubrication, etc.). The extensive field of applications of this technique ranges from structural components, in particular, in the transport sector, to more advanced fields, such as bioengineering. The present Special Issue covers the latest advances in PEO‐coated light alloys for structural (Al, Mg) and biomedical applications (Ti, Mg), with 10 research papers and 1 review from leading research groups around the world.
Research & information: general --- Technology: general issues --- magnesium --- plasma electrolytic oxidation --- SiO2 particle --- corrosion resistance --- wear resistance --- micro arc oxidation (MAO) --- Cu nano-layer --- hydrophilic surface --- apatite --- in vitro bioactivity --- antibacterial properties --- PEO --- LDH --- active protection --- corrosion --- aluminium --- biodegradable implants --- magnesium alloy --- micro-arc oxidation --- Taguchi method --- SBF --- in-vivo test --- biodegradability --- plasma electrolytic oxidation (PEO) --- aluminum 6082 --- luminescent coatings --- phosphorescence --- anodized aluminum --- Mott-Schottky analysis --- defect --- annealing --- titanium dioxide --- anatase and rutile --- surface treatment --- wear --- medical engineering --- aluminum --- titanium --- Al7075 alloy --- aluminum oxide --- molten salt --- microhardness --- radio frequency magnetron sputtering (RFMS) --- calcium-phosphate (CaP) coating --- n/a
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