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In recent years, we have assisted the remarkable growth in the use of functional polyesters. This book gathers novel research works dealing with the manufacturing and characterization of polyesters that have been functionalized by synthesis, copolymerization, additives (at micro- and nanoscale), surface modification, among other methodologies, to tailor desired properties in terms of mechanical, chemical, thermal, and barrier properties, biodegradation, and biocompatibility. Thus, Advances in Manufacturing and Characterization of Functional Polyesters will serve to guide a diverse audience of polymer scientists and engineers and provides an update of the “state-of-the-art” knowledge on functional polyesters.

Research & information: general --- poly(lactic acid), halloysite nanotubes --- mechanical characterization --- morphology --- thermal characterization --- bio-based --- poly(ethyelene terephthalate)-PET --- poly(amide) 1010-PA1010 --- mechanical properties --- compatibilization --- Xibond™ 920 --- PLA --- OLA --- impact modifier --- shape memory --- packaging applications --- isodimorphism --- random copolymers --- crystallization --- nucleation --- growth rate --- bio-PET --- r-PET --- chain extenders --- reactive extrusion --- secondary recycling --- food packaging --- recycled poly(ethylene terephthalate) --- rPET --- Calcium terephthalate salts --- high performance nanocomposites --- flax --- green composites --- fiber pretreatment --- almond shell waste --- reinforcing --- polyester-based biocomposites --- physicochemical properties --- disintegration --- biopolymers composites --- MgO nanoparticles --- MgO whiskers --- in vitro degradation --- in vivo degradation --- P(3HB-co-3HHx) --- nHA --- nanocomposites --- bone reconstruction --- biomedical polymers --- hydroxyapatite --- halloysite --- Bayesian reconstruction --- homogeneity --- porous materials --- polyester fibrous materials --- copolyester --- dimensional stability --- flexible optical devices --- uniaxial stretching --- birefringence --- and barrier properties --- poly(lactic acid), halloysite nanotubes --- mechanical characterization --- morphology --- thermal characterization --- bio-based --- poly(ethyelene terephthalate)-PET --- poly(amide) 1010-PA1010 --- mechanical properties --- compatibilization --- Xibond™ 920 --- PLA --- OLA --- impact modifier --- shape memory --- packaging applications --- isodimorphism --- random copolymers --- crystallization --- nucleation --- growth rate --- bio-PET --- r-PET --- chain extenders --- reactive extrusion --- secondary recycling --- food packaging --- recycled poly(ethylene terephthalate) --- rPET --- Calcium terephthalate salts --- high performance nanocomposites --- flax --- green composites --- fiber pretreatment --- almond shell waste --- reinforcing --- polyester-based biocomposites --- physicochemical properties --- disintegration --- biopolymers composites --- MgO nanoparticles --- MgO whiskers --- in vitro degradation --- in vivo degradation --- P(3HB-co-3HHx) --- nHA --- nanocomposites --- bone reconstruction --- biomedical polymers --- hydroxyapatite --- halloysite --- Bayesian reconstruction --- homogeneity --- porous materials --- polyester fibrous materials --- copolyester --- dimensional stability --- flexible optical devices --- uniaxial stretching --- birefringence --- and barrier properties

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

In recent years, we have assisted the remarkable growth in the use of functional polyesters. This book gathers novel research works dealing with the manufacturing and characterization of polyesters that have been functionalized by synthesis, copolymerization, additives (at micro- and nanoscale), surface modification, among other methodologies, to tailor desired properties in terms of mechanical, chemical, thermal, and barrier properties, biodegradation, and biocompatibility. Thus, Advances in Manufacturing and Characterization of Functional Polyesters will serve to guide a diverse audience of polymer scientists and engineers and provides an update of the “state-of-the-art” knowledge on functional polyesters.

poly(lactic acid), halloysite nanotubes --- mechanical characterization --- morphology --- thermal characterization --- bio-based --- poly(ethyelene terephthalate)—PET --- poly(amide) 1010—PA1010 --- mechanical properties --- compatibilization --- Xibond™ 920 --- PLA --- OLA --- impact modifier --- shape memory --- packaging applications --- isodimorphism --- random copolymers --- crystallization --- nucleation --- growth rate --- bio-PET --- r-PET --- chain extenders --- reactive extrusion --- secondary recycling --- food packaging --- recycled poly(ethylene terephthalate) --- rPET --- Calcium terephthalate salts --- high performance nanocomposites --- flax --- green composites --- fiber pretreatment --- almond shell waste --- reinforcing --- polyester-based biocomposites --- physicochemical properties --- disintegration --- biopolymers composites --- MgO nanoparticles --- MgO whiskers --- in vitro degradation --- in vivo degradation --- P(3HB-co-3HHx) --- nHA --- nanocomposites --- bone reconstruction --- biomedical polymers --- hydroxyapatite --- halloysite --- Bayesian reconstruction --- homogeneity --- porous materials --- polyester fibrous materials --- copolyester --- dimensional stability --- flexible optical devices --- uniaxial stretching --- birefringence --- and barrier properties --- n/a --- poly(ethyelene terephthalate)-PET --- poly(amide) 1010-PA1010