1999


From: Institute of Materials

Smart masts for intelligent yachts

An intelligent yacht mast that can sense the potentially catastrophic stresses and strains caused by high winds has been developed by engineers at Smart Fibres Ltd in Southampton, UK. By incorporating optical sensing technology into composite mast structures, the engineers have been able to build a smart mast that can provide sailors with a real-time picture of the stresses being placed on the yacht. The technology will also provide engineers and designers with longer term structural data and can feed into black-box recording in case of a catastrophic event.

The smart masts are built using carbon fibre composite materials laced with optical fibres containing a string of optical sensors throughout its length. The sensing technology used in the optical fibre employs 'Bragg grating' strain sensor technology developed over the past five years. These sensors are typically a few millimetres in length and are imprinted into the fibre using two ultra-violet wavelength laser beams. When light is launched down the fibre, each sensor acts as a tiny mirror that only reflects one particular wavelength of light. As the sensor experiences stress or strain, the wavelength of the light reflected changes accordingly. The information picked up by each of the sensors is then transmitted back to a remote optoelectronic data processing unit which builds up a picture of the loading placed on the mast and boom throughout their length, and throughout their lifetime.

Dr Lorna Everall, Optoelectronics Manager at Smart Fibres, says, "[this technology] has brought the idea of an intelligent structure from research curiosity to commercial reality. It heralds a new era in structural design engineering, with the technology being proven within the maritime environment but having wide ranging applications far beyond this". The technology has the potential for use in a wide range of industries including aerospace, civil engineering, transportation and offshore industries. The aerospace industry could use the technology to monitor the effects of flutter and vibration on aircraft in flight and civil engineers could also use the technology to monitor building structure in earthquake zones .

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For further information please contact Andrew McLaughlin on:
Tel: 44-171-451-7395
Fax: 44-171-839-2289
Email: [email protected]

Notes For Editors

1. This item is due to appear as "Smart composites for the marine industry" by Lorna Everall and Damon Roberts, in the July issue of Materials World, Volume 7, Issue 7, p.406.
2. Materials World is the journal of The Institute of Materials, the professional organisation of materials scientists and engineers working throughout the world in areas involving the use and application of plastics, rubber, steel, metals and ceramics.
3. Brief contents of Materials World are also available on the web: www.materials.org.uk
4. The views and opinions expressed in this article are the views of the author and are not necessarily the views of Materials World, IoM Communications or any other organisation with which they are associated.




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