Chrysotile fibre is a sheet silicate which is formed as a very thin rolled sheet. The sheet is about 8 angstoms thick (0.8 nanometers thick). It is composed of a sandwich of magnesium and silica. In the lung, the acid environment of the macrophage scavenger cell quickly breaks apart the sheet structure causing the fiber to decompose into small pieces. These pieces can then be readily cleared from the lung. If the fiber is swallowed and ingested it is attacked by the even stronger acid environment (hydrochloric acid, PH 2) in the stomach.
Chrysotile has been known for over 2000 years, being used initially for cremation cloths, oil lamp wicks and other textiles. But, it is only in the 19th Century that Chrysotile was first mined commercially in the Urals (Russia), Italy and Canada.
This is in contrast to the amphibole fibers which are formed as solid rods/fibers. The structure of an amphibole is a double chain of silicate tetrahedral which makes it very strong and durable. The external surface of the crystal structures of the amphiboles is quartz-like, and has the chemical resistance of quartz. The amphibole fibers have negligible solubility at any pH that might be encountered.
All these fibres are non-flammable. The major difference between chrysotile and amphiboles is related to its chemical composition, its acid-resistant properties and its effects on health. In contrast with amphiboles, chrysotile does not persist in the lungs after inhalation; it is quickly eliminated by the body. A prolonged exposure to high concentrations of chrysotile fibres is required for a clinical manifestation of pulmonary damage to appear. In the past, such high exposures were frequent; it is no longer the case today. On the other hand, because of their toxicity and their high biopersistence, amphiboles are mainly responsible for mesothelioma and pulmonary diseases even caused after a short or moderate exposure.
Today, chrysotile is the only asbestos fibre commercialized. The industry now only markets dense and non-friable materials in which the chrysotile fibre is encapsulated in a matrix of either cement or resin. These products include chrysotile cement building materials, friction materials, gaskets and certain plastics.
Scientific and empirical tests show it is possible to use white (chrysotile) fibres, the type used by Turnall, safely and responsibly. Nevertheless, the safety of asbestos continues to be a highly contentious issue and to mitigate any risks, real or perceived, Turnall has adopted a total quality and safety culture in our management processes and employees. Accreditation to the quality, environmental and occupational safety and health standards further demonstrate Turnall’s commitment and capacity to ensure the safe and responsible use of chrysotile fibres. Blue (crocidolite) and brown (amosite) varieties of asbestos are not used by Turnall.
Download “Evaluation of asbestos dust measurement” Evaluation-of-asbestos-dust-measurement.pdf – Downloaded 27 times – 728 KB
Download “ZIMBABWE CHRYSOTILE POSITION” ZIMBABWE-CHRYSOTILE-POSITION.pdf – Downloaded 30 times – 483 KB
Download “About Chrysotile” About-Chrysotile-1.doc – Downloaded 28 times – 29 KB
Download “Safe use of Chrysotile Fibre” Safe-use-of-Chrysotile-Fibre-1.docx – Downloaded 33 times – 10 KB