novel cellulosic fibers with microcellular porous structures by khaled el-tahlawy, and renzo shamey...
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Novel Cellulosic Fibers with Microcellular Porous
Structures By
Khaled El-Tahlawy, and Renzo Shamey
Textile Engineering, Chemistry and ScienceCollege of Textiles, NC State University
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OutlineOutline Cellulose Chemistry and Background
Introduction about polymer of MCF structure
Future uses of MCF
Previous Experiences on Microcellular Foam
Cellulose Fiber Spinning
Cellulose MCF Using Solvent Exchange Technique AcetoneAcetone EthanolEthanol
WaterWater
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CelluloseCellulose Structure Composition and Properties
Cellulose is the most abundant biopolymer worldwide .
Cellulose is composed of anhydroglucosidic units
connected together through β- 1,4-glucosidic ether bonds.
The number of anhydroglucose units vary from a few
hundred units in wood pulp to over 6000 for cotton.
Cellulose is a straight chain polymer: unlike starch.
Cellulose structure is more crystalline than starch
Cellulose has one primary and two secondary OH groups.
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CelluloseCellulose
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CelluloseCellulose SolventsSolvents
Ethylene Diamine / Potassium thiocyanate (KSCN).
4-Methylmorpholine N-Oxide.
Dimethyl sulfoxide / tetrabutylammonium fluoride
trihydrate.
Dimethyl imidazolidinone / lithium chloride.
NH3 / NH4SCN solvent system
Dimethylacetamide / Lithium Chloride
Dissolution of Cellulose in Organic Solvents:
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What are PMCFs?
MCF is a polymeric solid matrix that has voids with
diameters less than 10 micrometer
Has a high specific surface area
Has an excellent ability to scatter light
Has a high opacity
Has low density
Polymer MCFPolymer MCF
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As a filler in paper, coatings and paint.
Disposable containers
Encapsulation of volatile compounds
Light weight concrete
Drug delivery
Fiber Technology
Light scattering
Other applications
Potential Uses of MCFsPotential Uses of MCFs
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Solvent Exchange TechniqueSolvent Exchange Technique
In this technique, solvent of higher surface
tension (DMAc/LiCl) is exchanged with
another solvent of lower surface tension
(ethanol, acetone,…).
The bigger the difference in the surface
tension of solvents the better foam
structure formation.
The higher molecular weight the better
foam structure.
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Previous WorkPrevious Work Starch microcellular foam was prepared by cross-Starch microcellular foam was prepared by cross-
linking cooked corn starch with glutaraldehyde (15 linking cooked corn starch with glutaraldehyde (15
g/100 g starch) in acidic medium.g/100 g starch) in acidic medium.
Interesting void structures was observed with a range Interesting void structures was observed with a range
of 1 micron voids when glutaraldehyde is used within of 1 micron voids when glutaraldehyde is used within
the range of 7.5-15 g/100 g starch.the range of 7.5-15 g/100 g starch.
Corn starch of higher M. Wt had a better foam structure Corn starch of higher M. Wt had a better foam structure
than lower M.Wt.than lower M.Wt.
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Starch Microcellular FoamStarch Microcellular Foam
Khaled El-Tahlawy, Richard A. Venditti, Joel J. Pawlak, Khaled El-Tahlawy, Richard A. Venditti, Joel J. Pawlak, Carbohydrate Polymers Carbohydrate Polymers
67 (2007) 319–33167 (2007) 319–331
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ObjectivesObjectives To develop a novel cellulosic fiber with a porous
surface to increase fiber surface area.
Investigate the effect of different organic solvents on
void structure formation.
Understand the effect of CMCF on the optical
properties.
Comparing the antimicrobial activity of the new
modified cotton fibers with a regular spun fiber.
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Procedure to Produce Cellulose Procedure to Produce Cellulose FoamFoam
Wood Pulp, DP 600, was dissolved in DMAc/LiCl as follows:Wood Pulp, DP 600, was dissolved in DMAc/LiCl as follows:
Heat/stir the cellulose in DMAc solution at 150°C for 30’. Heat/stir the cellulose in DMAc solution at 150°C for 30’.
Cool to 100°C, then add a definite amount of LiCl (10%).Cool to 100°C, then add a definite amount of LiCl (10%).
Continue stirring for three hours.Continue stirring for three hours.
Cool to room temperature, then stir for 24 hours.Cool to room temperature, then stir for 24 hours.
Precipitated the cellulose fiber by adding the proper solvent Precipitated the cellulose fiber by adding the proper solvent
Change the solvent several times to exchange the DMAcChange the solvent several times to exchange the DMAc.
The foam was collected on filter paper, then dried.The foam was collected on filter paper, then dried.
Major steps and materials used to produce cellulose foamMajor steps and materials used to produce cellulose foam
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Water Solvent ExchangeWater Solvent Exchange
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Acetone Solvent ExchangeAcetone Solvent Exchange
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Ethanol Solvent ExchangeEthanol Solvent Exchange
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Ethanol Solvent Ethanol Solvent
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AcknowledgmentsAcknowledgments
Thanks are due to …Thanks are due to …
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Fiber and Polymer Science Program