Bituminous waterproofing explained

Bituminous waterproofing systems are designed to protect residential and commercial buildings. Bitumen (asphalt or coal-tar pitch) is a material made up of organic liquids that are highly sticky, viscous, and waterproof.[1] Systems incorporating bituminous-based substrates are sometimes used to construct roofs, in the form of "roofing felt" or "roll roofing" products.

Roofing felt

See also: tar paper.

Roofing felt (similar to and often confused with tar paper, but historically made from recycled rags rather than heavy kraft paper) has been used for decades as waterproof coverings in residential and commercial roofs as an underlay(ment) (sarking) beneath other building materials, particularly roofing and siding materials, and is one type of membrane used in asphalt built up roofing (BUR) systems. Over time the felt's natural mesh used as a substrate for asphalt impregnation (derived from fabrics like cotton or burlap) has evolved into synthetic products performing the same function with improved durability. Other changes with time have enhanced performance, with roofing felt remaining a heavier and more durable product than tar paper.

Function

The rapid application of waterproof or water-resistant roofing underlay protects the roof deck during construction until the roofing material is applied and is required for roofs required to meet Underwriters Laboratory (UL) fire ratings. The separation of the roof covering from the roof deck protects the roof covering from resins in some sheathing materials and cushions unevenness and old nails and splinters in re-roofing applications. The underlayment also sheds any water which penetrates the roof covering from an ordinary leak, a leak from wind-driven rain or snow, wind damage to the roof covering, or ice dams. However, the application of underlays may increase the roof temperature, which is the leading cause of ageing of asphalt shingles. Not installing an underlay may void the roof covering warranty.

Weights and grades

Felt paper is available in several grades, the most common being Type 1 - commonly called 15-pound (15#) or No. 15 (#15) - and Type 2 - commonly called 30-pound (30#) or No. 30 (#30). The weight designations originated with organic base felt weighing 15 or 30 pounds per 100 sq. ft. (15lb or 30lb per 100square feet). However, modern base felts are made of lighter-weight fibre, so the weight designations, though common colloquially, are no longer literally accurate.[2] A heavier class of materials with a similar construction but designed for civil engineering, environmental protection, and mining applications are known as Bituminous Geomembranes (BGMs). BGMs are distinguished in part by larger roll widths which can exceed 5m and substantial thickness of up to 6.0mm.[3]

Another basic designation is organic or inorganic. Organic felt paper has a base material made with formerly living materials such as rag fibre, hessian (burlap), or cellulose fibres (wood, or jute). Organic felt papers are now considered obsolete, having dwindled to just five percent of the market by 1987.[4] Inorganic base products are polyester, glass fibre developed in the 1950s, and historically, asbestos mat. Polyester mat is weaker and less chemically stable than fibreglass but because it is cheap is gaining market share. Polyester mat is primarily used with the more flexible modified-bitumen felt products. Asbestos mat was the first inorganic base material but was outlawed in the 1980s for health reasons but is still in use on some buildings. Inorganic felts are lighter, more tear-resistant, more fire-resistant, and do not absorb water. Another type of felt paper is perforated for use in built-up roofing and is not for use as a water-resistant underlay.

Heavier material is typically used for underlayment of longer-lived roof materials in order to match their longer life span, and on less sloped roofs, which are more susceptible to leaking. For example, two layers of No. 30 felt might be used under a slate or tile roof, whereas a single layer of No. 15 might be adequate for a steeply raked roof of 24-year asphalt shingles.[5] s0

Manufacturing process

Roofing felt is manufactured in roll format. Rolls of base felt are pulled on rollers through large tanks of bitumen mixes until they are saturated with the tar-like bitumen mixture, producing rolls of water-resistant but breathable material.

Modified bitumen is mixed with filler components such as limestone, sand, or polymers such as atactic polypropylene (APP) that gives rigidity and tear resistance or styrene-butadiene styrene (SBS), a rubber additive that gives more elastic benefits.[6]

Felt paper standards

The American Society for Testing Materials (ASTM) standards that apply to felt paper are:

The Canadian Standards Association standards are:

Roll roofing components

See main article: Asphalt roll roofing. Roll roofing is a bitumen product similar to asphalt shingles meant for direct exposure to the weather. To protect its asphaltic base from ultraviolet degradation mineral granules are added on top of the felt, also decreasing the product's fire vulnerability. Thin, removable transparent film is added to the base of rolled roofing during manufacturing on all torch-on products. This stops the felt from sticking to the mineral layer when rolled up during the packaging process. A similar removable membrane on self-adhesive rolled roofing separates the adhesive from the mineral layer. Torch-on roofing felt also receives a removable membrane to keep it from sticking to itself prior to application.

Irritants

The complex chemical composition of bitumen makes it difficult to identify the specific component(s) responsible for adverse health effects observed in exposed workers. Known carcinogens have been found in bitumen fumes generated at work sites. Observations of acute irritation in workers from airborne and dermal exposures to fumes and aerosols and the potential for chronic health effects, including cancer, warrant continued diligence in the control of exposures.

Reasons to use a roofing underlayment

Negative aspects

Malthoid

From 1905 to 1988, The Paraffine Paint Co. of San Francisco had Malthoid as a trademark for waterproof and weatherproof building and roofing materials made of paper and felt in whole or in part.[13] However, it had become well known before that.[14] About 1913, Paraffine promoted its Malthoid roofing materials with a 16-page booklet.[15] In 1941, the Duroid Company began making Malthoid in Onehunga, New Zealand.[16]

Malthoid was once common enough to be used as a generic description of flat roofing material in New Zealand and South Africa (item 26). A description of a New Zealand house built about 1914 says it was, "built of timber framework. covered by sheets of asbestos. The roof was closely timbered, then covered by strips of Malthoid paper. This was then painted with tar and topped off with a sprinkling of sand."[17] Railway vehicles in Australia were roofed with Malthoid.[18] Malthoid is still available for flat roofs and damp courses.[19]

See also

External links

Notes and References

  1. Web site: B Glossary Page. Roof Online. 2016-08-10.
  2. Book: Brown. AB. Symposium on Bituminous Waterproofing and Roofing Materials. Sparks. JW . 3–17. 10.1520/stp38450s. 1960. 978-0-8031-5597-8. Composition and Rheology of Roofing Asphalt.
  3. Scuero . Alberto . Vaschetti. Gabriella . 2010 . Geomembrane sealing systems for dams: ICOLD Bulletin 135 . Innovative Infrastructure Solutions . 2 . 10.1007/s41062-017-0089-0 . 23.
  4. William Cullen, "Transitions in Roofing Technology" National Roofing Contractors' Association Web site: Archived copy . 2014-03-11 . dead . https://web.archive.org/web/20130518044829/http://docserver.nrca.net/pdfs/technical/468.pdf . 2013-05-18 . accessed 3/11/2014
  5. Joan P. Crowe, "Underlayment considerations: Steep-slope roof systems require different underlay installations". Professional Roofing Magazine May 2005 http://www.texasinspector.com/files/Underlayment-NRCA.pdf accessed 3/11/2014
  6. Anink, David, and John Mak. Handbook of sustainable building: an environmental preference method for selection of materials for use in construction and refurbishment. Rev. ed. London: James & James, 2004. 62. Print.
  7. 10.1520/d0226_d0226m-09. Specification for Asphalt-Saturated Organic Felt Used in Roofing and Waterproofing . ASTM D226 / D226M - 09.
  8. 10.1520/d4869_d4869m-16a. Specification for Asphalt-Saturated Organic Felt Underlayment Used in Steep Slope Roofing . ASTM D4869 / D4869M - 16a.
  9. 10.1520/d2178_d2178m-15a. Specification for Asphalt Glass Felt Used in Roofing and Waterproofing . ASTM D2178 / D2178M - 15a.
  10. 10.1520/d6757_d6757m-16a. Specification for Underlayment Felt Containing Inorganic Fibers Used in Steep-Slope Roofing . ASTM D6757 / D6757M - 16a.
  11. 10.1520/d6222_d6222m-16. Specification for Atactic Polypropylene (APP) Modified Bituminous Sheet Materials Using Polyester Reinforcements . ASTM D6222 / D6222M - 16.
  12. Perry, Pat. Health and Safety Questions and Answers a Practical Approach. London: Thomas Telford, 2003. 101. Print.
  13. Web site: LegalForce information on trademark . Legalforce.com . 2014-06-18.
  14. Web site: Manawatu Times, Volume XXVII, Issue 7998, 21 June 1904 . Paperspast.natlib.govt.nz . 1904-06-21 . 2014-06-18.
  15. Web site: 93/281/1 Brochure, 'Malthoid Bungalows', paper, The Paraffine Paint Company, USA, c. 1913 . Powerhouse Museum . 21 September 2013 . Powerhouse Museum, Australia.
  16. Web site: Scie Construction Ltd history of flat roofing materials . Scieroofing.com . 2010-02-11 . 2014-06-18 . https://web.archive.org/web/20140311213642/http://www.scieroofing.com/retro.htm . 2014-03-11 . dead .
  17. Off the Sheep's Back: Bill Richards Lindon Pub., 1986, 9780864700148
  18. Web site: photo and some history of Malthoid on Australian heritage railways . Railpage.com.au . 2014-06-18.
  19. Web site: Tremco technical specs . 2014-06-18 . dead . https://web.archive.org/web/20140213025628/http://www.tremco.com.au/docs/techsheets/Malthoid%20Roofing.pdf . 2014-02-13 .