Sisal (/ ˈ s aɪ s əl /, Spanish: ), with the botanical name Agave sisalana, is a species of Agave native to southern Mexico but widely cultivated and naturalized in many other countries. It yields a stiff fibre used in making various products. The term sisal may refer either to the plant's common name or the fibre, depending on the context.
Sisal is a hard fibre extracted from the leaves of sisal plants which are perennial succulents that grow best in hot and dry areas. Sisal is an environmentally friendly fibre as it is biodegradable and almost no pesticides or fertilizers are used in its cultivation.
Sisal definition is - a strong white fiber used especially for cordage and twine —called also sisal hemp.
Sisal fibers (which can be up to three feet long) are sustainably harvested by hand from the leaves of the cactus plant. Sisal is not the same fiber as coir or jute. Sisal is stronger and more durable than other natural fibers. In fact it is used for rope and twine. These qualities make Sisal a preferred material for carpet and rugs.
A coarse and strong fibre, sisal is being increasingly used in composite materials for cars, furniture and construction as well as in plastics and paper products. The plant Sisal fibres are obtained from Agave Sisalana, a native of Mexico.
Sisal Fiber is tough and tan-colored with average fiber lengths from 1/16 to 1/2 inch. It is used in the automotive friction industry for green strength and for adding texture in coatings applications.
What is Sisal? Sisal is a natural fibre extracted from the leaves of the Agave Sisalana, a succulent plant closely related to the plant which brings us tequila, grows in dry, desert climates such as the plains of Mexico and other parts of the New World.
Sisal definition, a fiber yielded by an agave, Agave sisalana, of Yucatán, used for making rope, rugs, etc. See more.
According to our study performed on the statistical analysis of fiber size and aspect ratio distribution in the same composites (15), the median fiber lengths weighted in surface are 167 and 650 [micro]m for 40 wt% flax and 40 wt% sisal based composites, respectively (see Table 1).