Fibre cement is a composite building and construction material, used mainly in roofing and facade products because of its strength and durability. One common use is in fiber cement siding on buildings.

Corrugated fibre cement roofing

Material description

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The term cement originates from the Latin word caementum, which refers to chopped stone. Cement describes a substance which will react chemically with water and develop into a material as hard as stone.

In fibre cement there is a fibre reinforcement, which contributes to making the fibre-cement material even stronger. Together with a carefully planned production process, fibre cement makes it possible to develop strong and long lasting construction materials.[1] Today fibre cement is considered as a material physically suited for construction products such as cladding and roofing. It is primarily due to its function, performance and commercial value.[2]

Although fiber cement flat sheet may be classified under EN 12467:2012+A2:2018 in Category A1 (non-combustible - construction applications), A1Fl (non-combustible - flooring applications) or A2 (limited combustibility), some fiber cement sheet does not test as well. Additionally, some products may not have been tested by any accredited lab at all.[3]

Material history

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Fibre-reinforced cement-products were invented in the late 19th century by the Austrian Ludwig Hatschek. He mixed 90% cement and 10% asbestos fibres with water and ran it through a cardboard machine, forming strong thin sheets. Originally, the reinforcing fibres were of asbestos and the material was commonly used as siding in house buildings due to its low cost, fire-resistance, water tightness, light weight, and other useful properties.

In the 1970s it became widely acknowledged that exposure to asbestos is harmful to health, being directly related to a number of life-threatening diseases including, asbestosis, pleural mesothelioma (lung) and peritoneal mesothelioma (abdomen). Consequently, asbestos use was progressively prohibited and safer fibre alternatives were developed, principally cellulose, to allow continued exploitation of the widely acknowledged advantages of fibre cement.

Fibre cement products were amongst the last materials available to have contained large quantities of asbestos. The asbestos fibres are intimately bound to the cement matrix and were considered to be immobilized in the cement and therefore less prone to be released in the environment, suspended in the air, and inhaled in the lung than in other materials or applications, such as thermal insulation or flocking, in which loose asbestos fibres were used. However, asbestos fibres are inevitably released during machining of the fibre-cement products, and by long-term erosion of the material after it has been exposed to atmospheric weathering and wind, which causes the cement to degrade. Occupational health concerns and the protection of workers in the fibre-cement factories have finally led to the progressive elimination of asbestos from these products.[1]

Users of fibre cement boards who seek high performance and reliable green building materials should source products that have been tested by accredited laboratories and proven to be 100% free from asbestos or other harmful materials such as sepiolite, inorganic fibre or formaldehyde.[citation needed]

Material usage

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Older fibre cement roofing. Rammu island in Estonia

Fibre cement is a main component of long-lasting building materials. The main application areas are roofing and cladding. The list below gives some common applications.

Internal cladding:

External cladding:

  • Flat sheets as base and/or architectural facing
  • Flat sheets for e.g. wind shields, wall copings, and soffits
  • Corrugated sheets
  • Slates as architectural full and partial facing
  • Underroof
  • Planks

Roofing:

Along with the above applications, fibre cement boards can be used for a Mezzanine floor, Facade, External fins, Deck covering, Roof Underlay, Acoustix etc.

Fibre-cement products have found wide usage in various sectors of construction: industrial, agricultural, domestic and residential buildings, mainly in roofing and cladding applications, for new constructions and refurbishment projects.

References

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  1. ^ a b "Description of Eternit and fibre cement". Infolink. Archived from the original on 2009-11-02. Retrieved 2009-12-06.
  2. ^ "What is Eternit and fibre cement". Home improvement pages. Retrieved 2009-12-06.
  3. ^ "Mezzanine Flooring". Tdisystems. Retrieved 2021-09-16.
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