Cyanoacrylate

Cyanoacrylate
Chemical structure of methyl cyanoacrylate

Cyanoacrylate is the generic name for cyanoacrylate based fast-acting adhesives such as methyl 2-cyanoacrylate, ethyl-2-cyanoacrylate (commonly sold under trade names like Super Glue and Krazy Glue), and n-butyl cyanoacrylate (used in veterinary and skin glues). The related compound 2-octyl cyanoacrylate is a medical grade glue; it was developed to be non-toxic and less irritating to skin tissue. Cyanoacrylate adhesives are sometimes known as instant glues. The abbreviation CA is commonly used for industrial grades.

Contents

Discovery

Harry Wesley Coover Jr shortly before being awarded the National Medal of Technology and Innovation by Barack Obama in 2010

Cyanoacrylates were invented in 1942 by Dr. Harry Coover and Fred Joyner of Kodak Laboratories during experiments to make a transparent plastic suitable for gun sights.[1] Although not appropriate for the gun sights, they did find that cyanoacrylates would quickly glue together many materials with great strength. Seeing possibilities for a new adhesive, Kodak developed "Eastman #910" (later "Eastman 910") a few years later as the first true "super glue."

During the 1960s, Eastman Kodak sold cyanoacrylate to Loctite, which in turn repackaged and distributed it under a different brand name "Loctite Quick Set 404." In 1971, Loctite developed its own manufacturing technology and introduced its own line of cyanoacrylate, called Super Bonder. Loctite quickly gained market share and by late 1970s it was believed to have exceeded Eastman Kodak's share in the North American industrial cyanoacrylate market. Other manufacturers of cyanoacrylate included Permabond Division of National Starch and Chemical, Inc., which was a subsidiary of Unilever. Together, Loctite, Eastman and Permabond accounted for approximately 75% of the industrial cyanoacrylate market.[2]

Properties

In its liquid form, cyanoacrylate consists of monomers of cyanoacrylate molecules. Methyl-2-cyanoacrylate (CH2=C(CN)COOCH3 or C5H5NO2) has a molecular weight equal to 111.1, a flashpoint of 79 °C, and 1.1 times the density of water.[3] Ethyl-2-cyanoacrylate (C6H7NO2) has a molecular weight equal to 125 and a flashpoint of >75°C. To facilitate easy handling, a cyanoacrylate adhesive is frequently formulated with an ingredient such as fumed silica to make it more viscous or gel-like.

Generally, cyanoacrylate is an acrylic resin which rapidly polymerises in the presence of water (specifically hydroxide ions), forming long, strong chains, joining the bonded surfaces together. Because the presence of moisture causes the glue to set, exposure to moisture in the air can cause a tube or bottle of glue to become unusable over time. To prevent an opened container of glue from setting before use, it must be stored in an airtight jar or bottle with a package of silica gel. Another convenient way is attaching a hypodermic needle on the opening of glue. After applying, residual glue soon clogs the needle, keeping moisture out. The clog is removed by heating the needle (e.g. by a lighter) before use.

Polymerization of methyl-2-cyanoacrylate

Uses

A tube of The Original Super Glue.

Cyanoacrylate glue has a low shearing strength, which has also led to its use as a temporary adhesive in cases where the piece can easily be sheared off at a later time. Common examples include mounting a workpiece to a sacrificial glue block on a lathe, and tightening pins and bolts.

Cyanoacrylates are used to assemble prototype electronics (see wire wrap), flying model aircraft, and as retention dressings for nuts and bolts. Their effectiveness in bonding metal and general versatility have also made them popular amongst modeling and miniatures hobbyists. They are used to re-harden the boxes and shanks of ballerinas' pointe shoes as well.

Cyanoacrylate glue's ability to resist water has made it popular with marine aquarium hobbyists for fragging corals. The cut branches of hard corals such as Acropora can be glued to a piece of live rock (harvested reef coral) or Milliput (epoxy putty) to allow the new frag to grow out. It is actually safe to use directly in the tank, unlike silicone, which must be cured to be safe. However, as a class of adhesives, traditional cyanoacrylates are classified as having "weak" resistance to both moisture and heat[4] although the inclusion of phthalic anhydride reportedly counteracts both of these characteristics.[5]

In most cases, standard cyanoacrylate adhesive does not functionally bond well with smooth glass, although it can be used as a quick, temporary bond prior to application of a proper glass epoxy or cyanoacrylate specifically formulated for use on glass.[6] A mechanical adhesive bond may be formed around glass fibre mat or tissue to reinforce joints or to fabricate small parts.

When added to baking soda (sodium bicarbonate), cyanoacrylate glue forms a hard, lightweight filler/adhesive (baking soda is first used to fill a gap then the adhesive is dropped onto the baking soda). This works well with porous materials that the glue does not work well with alone. This method is sometimes used by aircraft modelers to assemble or repair polystyrene foam parts. It is also used to repair small nicks in the leading edge of composite propeller blades on light aircraft. Note that the reaction between cyanoacrylate and baking soda is very exothermic (heat producing) and also produces noxious vapors. See Reaction with cotton below.

Cyanoacrylate is used as a forensic tool to capture latent fingerprints on non-porous surfaces like glass, plastic, etc.[7] Cyanoacrylate is warmed to produce fumes which react with the invisible fingerprint residues and atmospheric moisture to form a white polymer (polycyanoacrylate) on the fingerprint ridges. The ridges can then be recorded. The developed fingerprints are, on most surfaces (except on white plastic or similar), visible to the naked eye. Invisible or poorly visible prints can be further enhanced by applying a luminescent or non-luminescent stain

Thin CA glue also has application in woodworking. It can be used as a fast drying, glossy finish. The use of oil (such as boiled linseed oil) may be used to control the rate at which the CA cures. CA glue is also used in combination with sawdust (from a saw or sanding) to fill voids and cracks. These repair methods are used on piano soundboards, wood instruments, and wood furniture.

Some rock climbers use cyanoacrylate to repair damage to the skin on their fingertips.[8][9] Similarly, stringed-instrument players can form protective finger caps (in addition to calluses) with cyanoacrylates.

CA glue was in veterinary use for mending bone, hide, and tortoise shell by at least the early 1970s. The inventor of cyanoacrylates, Harry Coover, said in 1966 that a CA spray was used in the Vietnam War to retard bleeding in wounded soldiers until they could be brought to a hospital. Butyl cyanoacrylate has been used medically since the 1970s outside the US, but due to its potential to irritate the skin, the U.S. Food and Drug Administration did not approve its use as a medical adhesive until 1998 with Dermabond.[10] Research has demonstrated the use of cyanoacrylate in wound closure as being safer and more functional than traditional suturing (stitches).[11] The adhesive has demonstrated superior performance in the time required to close a wound, incidence of infection (suture canals through the skin's epidermal, dermal, and subcutaneous fat layers introduce extra routes of contamination),[11] and final cosmetic appearance.[12][13]

While standard 'superglue' is 100% ethyl cyanoacrylate, many custom formulations (e.g., , 91% ECA, 9% poly(methyl methacrylate), <0.5% hydroquinone, and a small amount of organic sulfonic acid[14] and variations on the compound N-butyl-cyanoacrylate's for medical applications[11]) have come to be used for specific applications.

Safety issues

Toxicity

The fumes from CA are a vaporized form of the cyanoacrylate monomer that irritate sensitive membranes in the eyes, nose and throat. They are immediately polymerized by the moisture in the membranes and become inert. These risks can be minimized by using CA in well ventilated areas. About 5% of the population can become sensitized to CA fumes after repeated exposure, resulting in flu-like symptoms.[15] It may also act as a skin irritant and may cause an allergic skin reaction. The ACGIH assign a Threshold Limit Value exposure limit of 200 parts per billion. On rare occasions, inhalation may trigger asthma. There is no singular measurement of toxicity for all cyanoacrylate adhesives as there is a wide variety of adhesives that contain various cyanoacrylate formulations.

The United States National Toxicology Program and the United Kingdom Health and Safety Executive have concluded that the use of ethyl cyanoacrylate is safe and that additional study is unnecessary.[16] 2-octyl cyanoacrylate degrades much more slowly due to its longer organic backbone which slows the degradation of the adhesive enough to remain below the threshold of tissue toxicity. Due to the toxicity issues of ethyl cyanoacrylate, the use of 2-octyl cyanoacrylate for sutures is preferred.

Reaction with cotton

Applying cyanoacrylate to materials made of cotton or wool (such as cotton swabs, cotton balls, and certain yarns or fabrics) results in a powerful, rapid exothermic reaction. The heat released may cause minor burns, and if enough cyanoacrylate is used, the reaction is capable of igniting the cotton product, as well as releasing irritating vapor in the form of white smoke.[17]

Material Safety Data Sheets for cyanoacrylate instruct users not to wear cotton or wool clothing, especially cotton gloves, when applying or handling cyanoacrylates.[18]

Solvents and debonders

Acetone, commonly found in nail polish remover, is a widely available solvent capable of softening cured cyanoacrylate.[19] Other solvents include Nitromethane, Dimethyl sulfoxide, and Methylene chloride, although the latter two of these solvents are toxic.[20] Gamma-butyrolactone may also be used to remove cured cyanoacrylate.[21] Commercial debonders are also available.[22]

See also

References

  1. ^ "Inventor of the Week Archive". Lemelson-MIT Program. September 2004. http://web.mit.edu/invent/iow/coover.html. Retrieved 13 February 2010. 
  2. ^ HBS, “Loctite Corporation: Industrial Product Group,” July 15, 1991, p.3
  3. ^ http://www.inchem.org/documents/icsc/icsc/eics1272.htm
  4. ^ Petrie, Edward M. (2000). Handbook of adhesives and sealants. New York, NY: McGraw-Hill. p. 354. ISBN 0070498881. 
  5. ^ Petrie, Edward M. (2000). Handbook of adhesives and sealants. New York, NY: McGraw-Hill. p. 389. ISBN 0070498881. 
  6. ^ http://nautarch.tamu.edu/crl/conservationmanual/File5.htm
  7. ^ Eric W. Brown "The Cyanoacrylate Fuming Method"
  8. ^ "Bouldering". climbingaction.com. Retrieved 2011-02-19.
  9. ^ Anahad O'Connor (4 December 2007). "The Claim: Super Glue Can Heal Wounds". The New York Times. Retrieved 19 February 2011.
  10. ^ Singer, A. J.; McClain, S. A.; Katz, A. (2004). "A porcine epistaxis model: hemostatic effects of octylcyanoacrylate". Otolaryngology-Head and Neck Surgery 130 (5): 553–557. doi:10.1016/j.otohns.2003.09.035. PMID 15138419. 
  11. ^ a b c http://www.jpgmonline.com/article.asp?issn=0022-3859;year=1986;volume=32;issue=2;spage=97;epage=100;aulast=Dalvi
  12. ^ Fischl, R.A.: An adhesive for primary closure of skin incisions: a preliminary report. Plast. Reconstr. Surg. 30: 607-610, 1962
  13. ^ Rothnie, N.G. and Taylor, G. W. Sutureless skin closure-a clinical trial. Brit. Med. J. 2: 1027-1030, 1963
  14. ^ Safety data for ethyl cyanoacrylate from the Physical and Theoretical Chemistry Laboratory of Oxford University
  15. ^ CA PLUS Adhesives, Inc. FAQ
  16. ^ Methyl Cyanoacrylate and Ethyl Cyanoacrylate from inchem.org
  17. ^ Spontaneous Combustion ! - How To Video from metacafe.com
  18. ^ "Material Safety Data Sheet". accumetricinc.com. http://www.accumetricinc.com/boss/MSDS/BOSS181.pdf. Retrieved 2008-06-09. 
  19. ^ Moschos, M.; Droutsas, D.; Boussalis, P.; Tsioulias, G. (1997). "Clinical experience with cyanoacrylate tissue adhesive". Documenta Ophthalmologica (Soringer) 93 (3): 237–245. doi:10.1007/BF02569064. PMID 9550352. http://www.springerlink.com/content/m433621288867044/. Retrieved 29 March 2011. 
  20. ^ Duvvi, Sham K.; Lo, Stephen; Kumar, R; Spraggs, P (2005). "Superglue (Cyanoacrylate) in the Nose". Otolaryngol Head and Neck Surgery 133 (5): 803–804. doi:10.1016/j.otohns.2004.09.090. http://oto.sagepub.com/content/133/5/803.extract. Retrieved 29 March 2011. 
  21. ^ Shantha, K.L.; Krishnamurti, N.; Krishnamurti, N. (1989). "Developments and applications of cyanoacrylate adhesives". Journal of Adhesion Science and Technology (VSP) 3 (1): 237–260. doi:10.1163/156856189X00191. http://www.ingentaconnect.com/content/vsp/ast/1989/00000003/00000001/art00019. Retrieved 29 March 2011. 
  22. ^ "Product Description". 3M. http://solutions.3m.com/wps/portal/3M/en_US/Oil-Gas/Home/Prod_Info/Prod_Catalog/?PC_7_RJH9U5230GE3E02LECFTDQO0L7_nid=JXLGMKL2CHgsB4XBZ0P1DBglP5FFYKMN1Dbl. Retrieved 27 March 2011. 

Further reading

External links

  • U.S. Patent 2,768,109 Alcohol-Catalyzed α-Cyanoacrylate Adhesive Compositions, filed June 1954, issued October 1956.

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