Carnauba wax

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Carnauba is a wax derived from the leaves of the carnauba palm (Copernicia prunifera), a plant native to northeastern Brazil. It is known as "queen of waxes"[1] and usually comes in the form of hard yellow-brown flakes. It is obtained from the leaves of the carnauba palm by collecting them, beating them to loosen the wax, then refining and bleaching the wax.

Composition

Carnauba wax contains mainly esters of fatty acids (80-85%), fatty alcohols (10-16%), acids (3-6%) and hydrocarbons (1-3%). Specific for carnauba wax is the content of esterified fatty diols (about 20%), hydroxylated fatty acids (about 6%) and cinnamic acid (about 10%). Cinnamic acid, an antioxidant, may be hydroxylated or methoxylated.

Uses

Carnauba wax can produce a glossy finish and as such is used in automobile waxes, shoe polishes, food products such as candy corn, instrument polishes, and floor and furniture polishes, especially when mixed with beeswax. It is used as a coating on dental floss. Use for paper coatings is the most common application in the United States. It is the main ingredient in surfboard wax, combined with coconut oil.

Carnauba wax is a prominent ingredient in cosmetics formulas: lipsticks, eyeliners, mascara, eye shadows, foundations, blushers, skin care preparations, sun care preparations, etc.[citation needed]

It is the finish of choice for most briar pipes. It produces a high gloss finish when buffed on to wood. This finish dulls with time rather than flaking off (as is the case with most other finishes used.)

In foods, it is used as a formulation aid, lubricant, release agent, anticaking agent, and surface finishing agent in baked foods and mixes, chewing gum, confections, frostings, fresh fruits and juices, gravies, sauces, processed fruits and juices, soft candy, tic tacs and Altoids.

It is also used in the pharmaceutical industry as a tablet coating agent.

In 1890, Charles Tainter patented the use of carnauba wax on phonograph cylinders as a replacement for a mixture of paraffin and beeswax.

When used as a mold release, carnauba, unlike silicone or PTFE, is suitable for use with liquid epoxy, epoxy molding compounds (EMC) and some other plastic types. Carnauba wax is compatible with epoxies and generally enhances its properties along with those of most other engineering plastics.

An aerosol mold release is formed by suspending carnauba wax in a solvent. This aerosol version is used extensively in molds for semiconductor devices. Semiconductor manufacturers also use chunks of carnauba wax to break in new epoxy molds or to release the plunger when it sticks.

Technical characteristics

  • INCI name is Copernicia Cerifera (carnauba) wax
  • E Number is E903.
  • melting point: 78-85 °C, among the highest of natural waxes.
  • relative density is about 0.97
  • It is among the hardest of natural waxes, being harder than concrete in its pure form.
  • It is practically insoluble in water, soluble on heating in ethyl acetate and in xylene, practically insoluble in ethyl alcohol.

References

  1. Parish, Edward J. (2002). "The Chemistry of Waxes and Sterols". In Casimir C. Akoh, David B. Min. Food lipids: chemistry, nutrition, and biochemistry (2nd ed. ed.). New York: M. Dekker. p. 103. ISBN 0824707494. Unknown parameter |coauthors= ignored (help)

External links


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de:Carnaubawachs it:Cera di carnauba nl:Carnaubawas sv:Karnaubavax