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Caulk (also known as calking and caulking)[1] is a material used to seal joints or seams against leakage in various structures, often being particularly used to improve piping or otherwise manage plumbing systems.
In the context of the history related to sanitation and other topics, the oldest form of caulk consisted of fibrous materials driven into the wedge-shaped seams between boards on wooden boats or ships, with this being common before caulking as a part of building maintenance became standard. Cast iron sewerage tubes were formerly caulked in a similar way. Riveted seams in ships and boilers were formerly sealed by hammering the metal.[2]
Modern caulking compounds are flexible sealing compounds used to close up gaps in buildings and other structures against water, air, dust, insects, or as a component in firestopping. In the tunneling industry, caulking is the sealing of joints in segmental precast concrete tunnels, commonly by using concrete.
The materials "caulk" and "grout" may be confused for each other or otherwise subject to misunderstandings. While each are used in building maintenance to a significant degree, the former is usually made up of a fluid silicone or polyurethane type of chemical substance while the latter consists of a specific mixture based on many fine particles, with certain household uses of grout relying on its basis in cement being important. In addition, caulk remains flexible after it dries, which contrasts with the utilization of grout.[3]
Historical uses
editWooden shipbuilding
editTraditional caulking (also spelled calking) on wooden vessels uses fibers of cotton and oakum (hemp) soaked in pine tar. These fibers are driven into the wedge-shaped seam between planks, with a caulking mallet and a broad chisel-like tool called a caulking iron. The caulking is then covered over with a putty, in the case of hull seams, or else in deck seams with melted pine pitch, in a process referred to as paying, or "calefaction". Those who carried out this work were known as caulkers. In the Hebrew Bible, the prophet Ezekiel refers to the caulking of ships as a specialist skill.[4]
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Dried-out caulking on the Severn trow Spry, now displayed on shore
Iron or steel shipbuilding
editIn riveted steel or iron ship construction, caulking was a process of rendering seams watertight by driving a thick, blunt chisel-like tool into the plating adjacent to the seam. This had the effect of displacing the metal into a close fit with the adjoining piece.[5]
Boilermaking
editCaulking of iron and steel, of the same type described above for ship's hulls, was also used by boilermakers in the era of riveted boilers to make the joints watertight and steamtight.[6]
Modern use in construction
editApplication
editFor bulk use, caulk is generally distributed in disposable cartridges, which are rigid cylindrical cardboard or plastic tubes with an applicator tip at one end, and a movable plunger at the far end. These are used in caulking guns, which typically have a trigger connected to a rod which pushes the plunger, and has a ratchet to prevent backlash. The push rod may also be actuated by a motor or by compressed air. Similar mechanisms are used for grease guns.[7]
For smaller applications, caulk may be distributed in squeeze tubes.[7]
Backer rod
editBacker rod, also called backer material or back-up rod, is a flexible foam product used behind caulking to increase elasticity, reduce consumption, force the caulking into contact with the sides of the joint creating a better bond, determine the thickness of the caulking, and define the cross-section hour-glass shape of the caulk. The backer rod also acts as a bond breaker to keep the caulking from sticking to the bottom of the opening—called a three-sided bond—with the caulk only adhering to the sides of the opening in an hour-glass shape it can flex more easily and is less likely to tear. Backer rods can also be used to reduce consumption of the caulking by filling part of the joints.
Closed-cell foam does not absorb water and is impermeable. Closed-cell rods are less compressible and should not be compressed more than 25%.[8] Closed-cell rod will also lose firmness and out-gas if damaged during installation or overcompressed or at sharp bends. The gasses cannot pass through this backer rod and can deform, weaken, and even cause holes (leaks) in the caulk or sealant as it escapes.
Out-gassing is the reason that open-cell backer rod was developed.[8] Open-cell foam is porous so it will let gasses through which could otherwise cause blistering of the caulk or sealant. Additionally, open-cell backer rod allows air to get to the back side of the caulk or sealant which accelerates curing when used with air-cured sealants such as silicone. Open-cell rod is more compressible than closed-cell foam and should be compressed 25% to 75%.[8]
Energy efficiency
editAccording to the Consumer Federation of America, sealing unwanted leaks around homes is an excellent way to cut home energy costs and decrease the household carbon footprint.
Also, sealing cracks and crevices around homes lessens the strain on home appliances and can save time, money and hassle by preventing major repairs.
Preventing infestation
editSealing cracks and crevices prevents ingress by rodents.[9]
Types
editAcrylic latex
editThe most common type of caulk is acrylic latex, for general-purpose use.[10] Not only is acrylic latex inexpensive, but it is also the easiest type to apply smoothly and later paint if needed.[11][12]
Acrylic tile sealant
editAcrylic tile sealant usually comes in small tubes and is commonly used for wet applications.[12]
Polyurethane
editPolyurethane caulk is very durable and professional grade.[citation needed]
Silicone
editSilicone caulk or sealant is water-, mold-, and mildew-resistant.[10][12] Technically, when a joint material is silicone-based, it is considered a sealant rather than caulk.[13]
References
edit- ^ "Caulk". Merriam-Webster. Retrieved December 11, 2024.
- ^ Hutton, Walter S. (1898). Steam-Boiler Construction. p. 230.
- ^ Freitas, Taylor (August 13, 2024). "Grout vs. Caulk: Which Is Best for Your Project?". Angi.com. Angi. Retrieved December 11, 2024.
- ^ Ezekiel 27:9
- ^ "Navigation and Vessel Inspection Circulars (NVIC): USCG" (PDF). USCG.mil.
- ^ Colvin, Fred H. (1906). The Railroad Pocket-Book: A Quick Reference Cyclopedia of Railroad Information. New York, Derry-Collard; London, Locomotive Publishing Company (US-UK co-edition). p. C‑9. Retrieved February 17, 2022.
- ^ a b McClintock, Mike (February 15, 2011). "Squeezing the Best Results out of Caulking Projects". Chicago Tribune. Retrieved September 23, 2021.
- ^ a b c Gibb, J. F. (March 1980). "Hidden, but Essential: A Technical Review of Backer Rods" (PDF). The Construction Specifier. p. 41.
- ^ "Seal Up!". CDC.gov. Centers for Disease Control and Prevention. August 25, 2022. Retrieved September 25, 2022.
- ^ a b Dale, Timothy (February 21, 2023). Epstein, Richard (ed.). "How to Choose Caulk and Sealant for Every Home Project". The Spruce. Dotdash Meredith. Retrieved March 7, 2023.
- ^ Petersen, Mark (August 28, 2021). "Expert Guide for Choosing the Right Caulk for Any Job". Family Handyman. Retrieved February 17, 2022.
- ^ a b c Josh (October 2, 2019). "Exterior Maintenance Plan: Why Routine Caulking is Needed on Commercial Buildings". Epic Rope Access. Retrieved March 7, 2023.
- ^ "How to Choose the Right Caulk or Sealant for Your Next Plumbing Project". Oatey. Retrieved March 26, 2023.