Some Interesting Facts about Fiber Optics When deploying a fiber network, one of the key factors used to calculate ROI is how long it will operate. After all, some copper networks have lasted 140 years in the UK, even if they can’t necessarily meet today’s high-speed broadband needs in their current form. Optical fiber is inherently more fragile than copper. It is a particular type of glass (fused silica), with a typical tensile strength that is less than half that of copper.However, even though fused silica looks, and can feel, fragile and brittle, if correctly processed, tested and used it has proven to be immensely durable. The To assess the durability of any material it’s useful to consider certain attributes: • • • • •
Initial strength Rate of degradation Any flaws that can weaken it Reagents that can weaken it Its optical lifetime - as the silica must still be able to function satisfactorily
With this is mind, there are essentially four factors that will affect the longevity of your fiber network: Surface Flaws: Pristine silica glass that is free of defects is immensely resistant to degradation. However, all commercially produced optical fibers have surface flaws (small microcracks) that reduce the material’s longevity under certain conditions. The critical factor here is the stress intensity factor “K”, related to the applied stress. The critical factor here is the stress intensity factor "K", related to the applied stress and square root of the crack depth. It means that "real" fibers - those with small flaws - suffer at first a slow growth in those flaws followed by rapid growth to failure. Reduce Degradation: The user is then left with a fiber containing fewer, smaller flaws that need to be protected from unnecessary degradation. This means primarily stopping the creation of new flaws by coating the fiber with a protective and durable material for its primary coating. InstallationStrains: