Evaluation of Sisal Fibers Components by Infrared Spectroscopy

"The growing interest for natural materials as an environmentally friendly alternative for the substitution of energy intensive and non-sustainable synthetic materials, has motivated the use of lignocellulosic fibers as reinforcement of biocomposites. The sisal fiber, a relatively unknown lignocellulosic fiber with potential for composite reinforcement, still needs to characterize for possible engineer applications. Therefore, the present work analyzed the sisal fiber by means of Fourier Transform Infra-red (FTIR) spectroscopy. The sisal fiber FTIR spectrum revealed main absorption bands typical of any lignocellulosic fiber. However, some specific bands as well as bands broadening and intensity suggested particular activities for functional molecular groups in the sisal fiber.IntroductionIn recent decades, environmental issues related to worldwide pollution and climate changes, mainly the global warming, are motivating new paradigms for the development of our society. Among these, the use of natural materials in substitution for non-sustainable synthetic materials, obtained from non-renewable ores and petroleum, is increasingly being considered. In particular, natural fibers extracted from plants are, in this 21st century, experiencing a surge as composite reinforcement [1-11 ], following their replacement by synthetic fibers, specially the glass fiber, during the second half of the 20th century [1-2-8].In addition to environmental benefits [12-13] the lignocellulosic fibers present economical advantages, such as worldwide abundance and comparatively low costs as well as some technical properties associated with flexibility and toughness[ll], which contribute to the performance of automobile components fabricated with natural fibers composites[14-16].Among the less common lignocellulosic fibers that only recently have been investigated[l 7], the fibers extracted from the stem of the sisal plant, shows in Fig 1, reveals a potential for polymer composite reinforcement."