It usually occurs due to the long-term contract to the high-stress levels that operate below the material’s yield strength wind turbines are often utilized in the conversion of the kinetic energy of wind into an electric form. The wind energy designs can either for the single or grouped turbines. There has been a constant change with regards to the wind turbines development, but the main feature has been on its blades. This is because of the fact that, the blades usually plays the pivotal role of capturing and setting wind in a sequential and constant motion (ASHBY & JONES, 1999). They are primarily made up of either reinforced plastic, wood epoxy, or even glass but can at times be made up of steel or aluminum The modern turbines are commonly comprised of three blades. The major variation normally occurs when it comes to the aspects of the rotor the ultimate diameter. There are various materials that can be used for the development of the wind turbine blade. The main forms of materials have are what is referred to as the Gurit materials. The primary point for taking these materials into consideration that; it is encompassed of the products that tend to cover all the current production approaches that include Resin infusion, wet lamination, and the prepreg (JOHN, 1991). Engineering Materials Science.
ASHBY, M. F., & JONES, D. R. H. (1999). Engineering materials 2 an introduction to microstructures, processing, and design. Oxford, Butterworth-Heinemann. http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=240202.
COMMITTEE ON ENGINEERING MATERIALS. (1958). Engineering materials. New York, Pitman Pub. Corp.
JOHN, V. (1991). Engineering materials. Basingstoke, Macmillan.
TIMINGS, R. L. (1998). Engineering materials.
OHRING, M. (1995). Engineering materials science. San Diego, Academic Press. http://site.ebrary.com/id/10206031.
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