Effects of Characteristics of Sisal Fiber using the SPSS Method

Abstract

The distinguishing qualities or traits of anything are its characteristics. They can be viewed as traits that set one person or thing apart from another. For instance, the chameleon's ability to blend in is one of its traits. Soft, straight, and golden in color, sisal fibers are. Sisal can have long or short fibers because it is extremely coarse and rigid. Because of its strength, toughness, stretch ability, compatibility with some colors, and resilience to degradation in saline water, sisal is prized for use as cordage. Sisal can be fashioned into carpets, mats, and a variety of handicrafts in addition to its traditional applications as rope, ropes, string, and yarn. Sisal fiber is a tough, robust material with low flexibility that is obtained from freshly cut leaves of the plant. It is crucial in the production of materials like carpeting, coarse purses, maritime rope (where strong resistance to saltwater is required), and cordage. Research significance: In recent years, materials engineers and material scientists have paid close attention to sisal-fiber reinforced composites as a type of environmental composites. Effects of fiber surface treatment on fiber compressive properties and fiber-matrix are discussed in this article. Tensile as well as single-strand strand pull tests were used, respectively, to assess the interfacial characteristics. For assessing the implies that the average shear resistance of composite laminates, a short beam shearing test was also carried out. High density polyethylene (HDPE), vinyl ester, and epoxy were selected as the matrix materials. Two different fiber surface-treatment techniques, chemical bonding and oxidation, were used to boost interfacial strength. According to the results, different fiber surface-treatment techniques had varying effects on the tensile strength of sisal fiber, as well as the strength and bonding characteristics of the fiber-matrix interface. As a result, this work can provide important knowledge on jute fiber-polymer matrix compound interface design. Method: Ratio studies are statistical analyses of data from appraisals and property valuations. Nearly all states utilize them to produce quantitative measure of the proportion of current market price about which individually estimated taxable property is appraised as well as to offer assessment performance indicators. Evaluation parameters: Fiber diameter (mm), Water content (%), Tensile strength(MPa), Tensile modulus(GPa) and Elongation at break (%) Result: The Cronbach's Alpha Reliability result. The overall Cronbach's Alpha value for the model is .658 which indicates 66% reliability. From the literature review, the above 50% Cronbach's Alpha value model can be considered for analysis. Conclusion: Characteristics of sisal fiber the Cronbach's Alpha Reliability result. The overall Cronbach's Alpha value for the model is .658 which indicates 66% reliability. From the literature review, the above 50% Cronbach's Alpha value model can be considered for analysis.