Skip to main content

Research Repository

Advanced Search

Surface characterisation of modified pan based carbon fibres.

Osbeck, Susan

Authors

Susan Osbeck



Contributors

Robert Bradley
Supervisor

Chaozong Liu
Supervisor

Hicham Idriss
Supervisor

Isabelle Ammar-Khodja
Supervisor

Alex Baidak
Supervisor

Steven Ward
Supervisor

Abstract

This thesis examines the surfaces of polyacrylonitrile (PAN) based high strength (HT) carbon fibres modified by electrochemical and ultra-violet ozone (UV/O3) treatment methods. The surface and bulk study was conducted by x-ray photoelectron spectroscopy, scanning electron microscopy, transmission electron microscopy and Raman spectroscopy. In addition, immersion calorimetry in polar and non-polar liquids, as well as dilute resins, is used to investigate fibre surface energies while temperature programmed desorption (TPD) is used to investigate adsorption of linear alcohols (C1 to C4) on the fibres. One of the main aims of the work is to understand the reaction mechanisms that take place between the surface oxygen functionalities on treated carbon fibres and the resin molecules that are used in forming composites. UV/O3 treatments were shown to produce significant levels of oxygen on the fibre surface. Anodic treatments did not alter the surface morphology, while UV/O3 treatments were seen to increase surface areas six fold. Immersion calorimetry measurements showed similar trends to carbon black materials but, due to the small surface areas of the fibre (typically 1 m2/g), the rush-in effect and heat of ampoule breakage was found to overshadow the signal from the fibre. TPD measurements showed that alcohol adsorption was considerably enhanced by the presence of surface oxygen. In addition a relationship between the acidity scale of the alcohols in the gas phase and the extent of their dissociative adsorption at room temperature was established. Overall this work has shown UV/O3 to be a successful surface treatment method, superior to electrochemical treatments and TPD to be a promising method for investigating bonding.

Citation

OSBECK, S. 2011. Surface characterisation of modified pan based carbon fibres. Robert Gordon University, PhD thesis.

Thesis Type Thesis
Deposit Date Jul 22, 2011
Publicly Available Date Mar 29, 2024
Public URL http://hdl.handle.net/10059/653
Award Date May 31, 2011

Files




Downloadable Citations