Development of a Natural Fiber Mat Plywood Composite

Anthireddy, Prasanna Kumar

08 1900

Natural fibers like kenaf, hemp, flax and sisal fiber are becoming alternatives to conventional petroleum fibers for many applications. One such applications is the use of Non-woven bio-fiber mats in the automobile and construction industries. Non-woven hemp fiber mats were used to manufacture plywood in order to optimize the plywood structure. Hemp fiber mats possess strong mechanical properties that comparable to synthetic fibers which include tensile strength and tensile modulus. This study focuses on the use of hemp fiber mat as a core layer in plywood sandwich composite. The optimization of fiber mat plywood was done by performing a three factor experiment. The three factors selected for this experiment were number of hemp mat layers in the core, mat treatment of the hemp mat, and the glue content in the core. From the analysis of all treatments it was determined that single hemp mat had the highest effect on improving the properties of the plywood structure.

Fiber Mat

Plywood

Hemp

Hemp -- Industrial applications.

Fibrous composites.

Plywood.

Aerosol Droplet Migration in Fibrous Media

Davoudi, Masoume

21 November 2018

No description available.

Chemical Engineering

Fiber

Fibrous Filter

Air Flow

Drag Coefficient

Reynolds Number

Contact Angle

Drop Motion

Fiber Mat

Synthesis and Antimicrobial Properties of Silver(I) N-Heterocyclic Carbene Complexes

Melaiye, Abdulkareem M.

23 September 2005

No description available.

Silver(I)

N-heterocyclic carbenes

Antimicrobial

Electrospinning

Nanosilver ions

Nanofiber mat

Bactericidal

fungicidal

Electrospun fiber mat

Hydrogel-Electrospun Fiber Mat Composite Materials for the Neuroprosthetic Interface

Han, Ning

January 2010

No description available.

Biomedical Engineering

Chemical Engineering

hydrogel

electrospun fiber mat

composite materials

neuroprosthetic interface

neurotrophins

controlled release

hydrophobicity

swelling behavior

release behavior

cell adhesion

electrode coating

Templated Metallic Nanostructures on Electrospun Fibers: Synthesis, Mechanical Characterization and Filtration Application

Temitope Q Aminu (10716801)

29 April 2021

<p>The functionalization of nonwoven electrospun polymeric fibers with metallic nanostructures has enabled the design of novel nanocomposite materials used in a wide range of applications. In particular, designs based on incorporating established antimicrobial species such as copper and silver have potential applications as antimicrobial filtration membranes, leveraging on the convoluted fiber assembly and high surface area–to–volume ratios of the constitutive fibers. Electroless deposition based on spontaneous electrochemical reactions offers a facile and tunable methodology for surface–confined growth of metallic nanostructures on the non–planar substrate architectures presented by nonwoven electrospun fibers. </p> <p>Firstly, this work explores, in a broad sense, the effects of two different seed catalyst chemistries, palladium and silver, on the evolution of copper nanoparticles on electrospun polyacrylonitrile fibers. Copper nanoparticle coverage and conformity; deposition kinetics; modifications in the surface chemistry of the PAN fibers; and thermal stability of the resultant nanocomposites were examined. Secondly, qualitative and quantitative assessment of the interfacial adhesion between the copper nanostructures and PAN fibers were undertaken by exploiting the elastic mismatch between both phases during tensile deformation. For copper nanocubes on nanofibers, the adhesion energy is estimated to be between 0.48 J/m² and 1.0 J/m² using strain and growth based adhesion models.</p> <p>Macroscopically, the compliant nature of the nonwoven fiber mats makes them susceptible to out-of-plane deformation during water filtration processes which may alter their size exclusion configuration for effective filtration. A bulge testing device is built and implemented to simulate and characterize hydraulic flow – induced deformation in the electrospun PAN fiber mats. The pressure–deflection relationships of the mats show a sub-linear dependence in contrast to classical continuum materials. The macroscopic mat behavior was governed by the properties of the constituent fibers, with an apparent mat bending rigidity dependent on the fiber diameters.</p> <p> Lastly, the nonwoven fiber mats functionalized with copper nanoparticles were evaluated for use as potential antimicrobial microfiltration membranes. The fiber mats displayed high water flux and high separation efficiency for model 3 μm particles, with separation factors reaching above 99%.</p>

Bulge Test

electrospinning

nanostructures

Nanocubes

Adhesion

electroless deposition

Filtration

fiber mat deformation

polyacrylonitrile

fibers

polymer