TY - GEN
T1 - Enhanced ultraviolet resistance of Kevlar fibers with TiO2 films
AU - Chen, Wei
AU - Qian, Xinming
AU - He, Xueqiu
AU - Liu, Jiping
PY - 2011
Y1 - 2011
N2 - Kevlar fiber is very sensitive to ultraviolet (UV) irradiation that can cause serious photodegradation effect on fibers such as increase in brittleness, loss of brightness, change of color and opacity, formation of surface cracks, etc. Thus the maintenance of mechanical properties is of great significance for Kevlar fibers servers long in hostile environments. In present paper, Nanostructured TiO2 films were used to improve the ultraviolet resistance of Kevlar fibers by modified sol-gel technique. Specifically, polyethylene glycol (PEG) was added to improve the particle size distribution in TiO2 sol, which was subsequently coated on the surface of Kevlar fibers to form thin nano-TiO2 films. UV absorption spectrum result indicated the UV absorbance of PEG contained sol was much better than that of sol without PEG. The influence of the coating on UV-durability of Kevlar was investigated by an accelerated photo-ageing method. Results of mechanical measurement showed that after exposing to UV light for 160 h, the fibers without TiO2 coating degraded and became powdery, whereas 37.5 percent of strength and 41.2 percent of break extension still remained for the TiO 2 coated fibers. SEM analysis showed no significant surface morphological change on the coated fibers after the exposure, while some latitudinal crack fractures appeared on the uncoated Kevlar fibers.
AB - Kevlar fiber is very sensitive to ultraviolet (UV) irradiation that can cause serious photodegradation effect on fibers such as increase in brittleness, loss of brightness, change of color and opacity, formation of surface cracks, etc. Thus the maintenance of mechanical properties is of great significance for Kevlar fibers servers long in hostile environments. In present paper, Nanostructured TiO2 films were used to improve the ultraviolet resistance of Kevlar fibers by modified sol-gel technique. Specifically, polyethylene glycol (PEG) was added to improve the particle size distribution in TiO2 sol, which was subsequently coated on the surface of Kevlar fibers to form thin nano-TiO2 films. UV absorption spectrum result indicated the UV absorbance of PEG contained sol was much better than that of sol without PEG. The influence of the coating on UV-durability of Kevlar was investigated by an accelerated photo-ageing method. Results of mechanical measurement showed that after exposing to UV light for 160 h, the fibers without TiO2 coating degraded and became powdery, whereas 37.5 percent of strength and 41.2 percent of break extension still remained for the TiO 2 coated fibers. SEM analysis showed no significant surface morphological change on the coated fibers after the exposure, while some latitudinal crack fractures appeared on the uncoated Kevlar fibers.
KW - Kevlar
KW - Material safety
KW - TiO film
KW - UV resistance
KW - accelerated photo-ageing
UR - http://www.scopus.com/inward/record.url?scp=80052453895&partnerID=8YFLogxK
U2 - 10.1109/ICRMS.2011.5979465
DO - 10.1109/ICRMS.2011.5979465
M3 - Conference contribution
AN - SCOPUS:80052453895
SN - 9781612846644
T3 - ICRMS'2011 - Safety First, Reliability Primary: Proceedings of 2011 9th International Conference on Reliability, Maintainability and Safety
SP - 1267
EP - 1272
BT - ICRMS'2011 - Safety First, Reliability Primary
T2 - 2011 9th International Conference on Reliability, Maintainability and Safety: Safety First, Reliability Primary, ICRMS'2011
Y2 - 12 June 2011 through 15 June 2011
ER -