Bio and Synthetic Based Polymer Composite Materials

Bio and Synthetic Based Polymer Composite Materials

For decades, synthetic fibers have been the leading commodity in the composites industry. However, synthetic fibers have many disadvantages, as they are non-biodegradable. Since synthetic fibers have many shortcomings, researchers have had growing interest in producing polymers that incorporate natu...

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Bibliographic Details
Other Authors: Bayraktar, Emin (Editor), Sapuan, S. M. (Editor), Ilyas, R. A. (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2022
Subjects:
Research & information: general
Physics
kenaf composite
flammability
fire retardant
hybrid composite
tensile
morphology
pet yarn
epoxy
flame retardant
polymer composites
metal
metal components
characterization
combustion mechanism
biomedical
conducting polymers
corrosion
doped
electronics
shape memory polymers
sensors
actuators
optical limiting
biocomposites
kenaf
sugar palm
thermal
dynamic mechanical analysis
benzoylation
non-chemical pretreatment
lignocellulosic biomass
bioproducts
nanocellulose
membrane filter
microbes
surface functionalization
polycaprolactone
pine cone powder
graphite
dimensional stability
biodegradability
fracture energy
SEM
glass fiber
basalt fiber
DMA
TMA
bacterial cellulose (BC)
biopolymer
industrial waste
microbial cellulose
carbon source
nitrogen source
cornstarch
plasticizer
fructose
glycerol
film
properties
natural fiber
cellulose
costing
processing
fiber-matrix adhesion
compression strength
foam
specific energy absorption
tube
natural and synthetic fibers
thermosetting polymers
L16 orthogonal array
Taguchi method
erosion mechanism
SEM analysis
prosthetic applications
wheat biocomposite
wheat starch
wheat gluten
wheat fiber
antioxidant
antimicrobial
3D printing
bio-inspired structure
energy absorption
fused deposition modelling
honeycomb structure
n/a
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Summary:For decades, synthetic fibers have been the leading commodity in the composites industry. However, synthetic fibers have many disadvantages, as they are non-biodegradable. Since synthetic fibers have many shortcomings, researchers have had growing interest in producing polymers that incorporate natural fibers. Natural fibers are becoming more common as a viable option due to the harmful environmental and health consequences of synthetic fibers. Concerns about the environment and the rising greenhouse effect, as well as increasing interest in the use of sustainable materials, has motivated researchers to investigate biocomposite materials. In today's manufacturing environment, natural fiber composites are playing a prominent role in many vital applications, such as in wings of wind turbines, bicycle frames, automobile interiors, seat cushions, door panels. The great interest in natural fiber composites is due to their high performance, biodegradability, nonabrasive light weight, and low cost. Moreover, the widespread adoption of natural fibers and biopolymers as green materials is being motivated by the rapid depletion of petroleum supplies, as well as by a growing recognition of global environmental issues associated with the use of traditional plastics. The successful application of biopolymers and the promise of alternative pathways with a reduced carbon footprint arising from the use of green materials bodes well for the future design and development of ever more sophisticated green materials.
Physical Description:1 electronic resource (382 p.)
ISBN:books978-3-0365-5239-2
9783036552392
9783036552408
Access:Open Access

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